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/*
* Copyright (c) 2022, Julian Offenhäuser <offenhaeuser@protonmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibGfx/Font/PathRasterizer.h>
#include <LibPDF/CommonNames.h>
#include <LibPDF/Encoding.h>
#include <LibPDF/Fonts/PS1FontProgram.h>
#include <LibPDF/Reader.h>
#include <ctype.h>
#include <math.h>
namespace PDF {
PDFErrorOr<NonnullRefPtr<Type1FontProgram>> PS1FontProgram::create(ReadonlyBytes const& bytes, RefPtr<Encoding> encoding, size_t cleartext_length, size_t encrypted_length)
{
Reader reader(bytes);
if (reader.remaining() == 0)
return error("Empty font program");
reader.move_to(0);
if (reader.remaining() < 2 || !reader.matches("%!"))
return error("Not a font program");
if (!seek_name(reader, CommonNames::Encoding))
return error("Missing encoding array");
auto font_program = adopt_ref(*new PS1FontProgram());
if (encoding) {
// 9.6.6.2 Encodings for Type 1 Fonts:
// An Encoding entry may override a Type 1 font’s mapping from character codes to character names.
font_program->set_encoding(move(encoding));
} else {
if (TRY(parse_word(reader)) == "StandardEncoding") {
font_program->set_encoding(Encoding::standard_encoding());
} else {
auto encoding = Encoding::create();
while (reader.remaining()) {
auto word = TRY(parse_word(reader));
if (word == "readonly") {
break;
} else if (word == "dup") {
u8 char_code = TRY(parse_int(reader));
auto name = TRY(parse_word(reader));
encoding->set(char_code, name.starts_with('/') ? name.substring_view(1) : name.view());
}
}
font_program->set_encoding(move(encoding));
}
}
bool found_font_matrix = seek_name(reader, "FontMatrix");
if (found_font_matrix) {
auto array = TRY(parse_number_array(reader, 6));
font_program->set_font_matrix({ array[0], array[1], array[2], array[3], array[4], array[5] });
} else {
font_program->set_font_matrix({ 0.001f, 0.0f, 0.0f, 0.001f, 0.0f, 0.0f });
}
auto decrypted = TRY(decrypt(reader.bytes().slice(cleartext_length, encrypted_length), 55665, 4));
TRY(font_program->parse_encrypted_portion(decrypted));
return font_program;
}
PDFErrorOr<void> PS1FontProgram::parse_encrypted_portion(ByteBuffer const& buffer)
{
Reader reader(buffer);
if (seek_name(reader, "lenIV"))
m_lenIV = TRY(parse_int(reader));
if (!seek_name(reader, "Subrs"))
return error("Missing subroutine array");
auto subroutines = TRY(parse_subroutines(reader));
if (!seek_name(reader, "CharStrings"))
return error("Missing char strings array");
while (reader.remaining()) {
auto word = TRY(parse_word(reader));
VERIFY(!word.is_empty());
if (word == "end")
break;
if (word[0] == '/') {
auto encrypted_size = TRY(parse_int(reader));
auto rd = TRY(parse_word(reader));
if (rd == "-|" || rd == "RD") {
auto line = TRY(decrypt(reader.bytes().slice(reader.offset(), encrypted_size), m_encryption_key, m_lenIV));
reader.move_by(encrypted_size);
auto glyph_name = word.substring_view(1);
GlyphParserState state;
TRY(add_glyph(glyph_name, TRY(parse_glyph(line, subroutines, state, false))));
}
}
}
return {};
}
PDFErrorOr<Vector<ByteBuffer>> PS1FontProgram::parse_subroutines(Reader& reader) const
{
if (!reader.matches_number())
return error("Expected array length");
auto length = TRY(parse_int(reader));
VERIFY(length <= 1024);
Vector<ByteBuffer> array;
TRY(array.try_resize(length));
while (reader.remaining()) {
auto word = TRY(parse_word(reader));
if (word.is_empty())
VERIFY(0);
if (word == "dup") {
auto index = TRY(parse_int(reader));
auto entry = TRY(parse_word(reader));
if (entry.is_empty())
return error("Empty array entry");
if (index >= length)
return error("Array index out of bounds");
if (isdigit(entry[0])) {
auto maybe_encrypted_size = entry.to_int();
if (!maybe_encrypted_size.has_value())
return error("Malformed array");
auto rd = TRY(parse_word(reader));
if (rd == "-|" || rd == "RD") {
array[index] = TRY(decrypt(reader.bytes().slice(reader.offset(), maybe_encrypted_size.value()), m_encryption_key, m_lenIV));
reader.move_by(maybe_encrypted_size.value());
}
} else {
array[index] = TRY(ByteBuffer::copy(entry.bytes()));
}
} else if (word == "index" || word == "def" || word == "ND") {
break;
}
}
return array;
}
PDFErrorOr<Vector<float>> PS1FontProgram::parse_number_array(Reader& reader, size_t length)
{
Vector<float> array;
TRY(array.try_resize(length));
reader.consume_whitespace();
if (!reader.consume('['))
return error("Expected array to start with '['");
reader.consume_whitespace();
for (size_t i = 0; i < length; ++i)
array.at(i) = TRY(parse_float(reader));
if (!reader.consume(']'))
return error("Expected array to end with ']'");
return array;
}
PDFErrorOr<DeprecatedString> PS1FontProgram::parse_word(Reader& reader)
{
reader.consume_whitespace();
auto start = reader.offset();
reader.move_while([&](char c) {
return !reader.matches_whitespace() && c != '[' && c != ']';
});
auto end = reader.offset();
if (reader.matches_whitespace())
reader.consume();
return StringView(reader.bytes().data() + start, end - start);
}
PDFErrorOr<float> PS1FontProgram::parse_float(Reader& reader)
{
auto word = TRY(parse_word(reader));
return strtof(DeprecatedString(word).characters(), nullptr);
}
PDFErrorOr<int> PS1FontProgram::parse_int(Reader& reader)
{
auto maybe_int = TRY(parse_word(reader)).to_int();
if (!maybe_int.has_value())
return error("Invalid int");
return maybe_int.value();
}
PDFErrorOr<ByteBuffer> PS1FontProgram::decrypt(ReadonlyBytes const& encrypted, u16 key, size_t skip)
{
auto decrypted = TRY(ByteBuffer::create_uninitialized(encrypted.size() - skip));
u16 R = key;
u16 c1 = 52845;
u16 c2 = 22719;
for (size_t i = 0; i < encrypted.size(); ++i) {
u8 C = encrypted[i];
u8 P = C ^ (R >> 8);
R = (C + R) * c1 + c2;
if (i >= skip)
decrypted[i - skip] = P;
}
return decrypted;
}
bool PS1FontProgram::seek_name(Reader& reader, DeprecatedString const& name)
{
auto start = reader.offset();
reader.move_to(0);
while (reader.remaining()) {
if (reader.consume('/') && reader.matches(name.characters())) {
// Skip name
reader.move_while([&](char) {
return reader.matches_regular_character();
});
reader.consume_whitespace();
return true;
}
}
// Jump back to where we started
reader.move_to(start);
return false;
}
}
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