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/*
* Copyright (c) 2021-2022, Matthew Olsson <mattco@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/ScopeGuard.h>
#include <LibPDF/CommonNames.h>
#include <LibPDF/Document.h>
#include <LibPDF/Filter.h>
#include <LibPDF/Parser.h>
#include <LibTextCodec/Decoder.h>
#include <ctype.h>
namespace PDF {
PDFErrorOr<Vector<Operator>> Parser::parse_operators(Document* document, ReadonlyBytes bytes)
{
Parser parser(document, bytes);
parser.m_disable_encryption = true;
return parser.parse_operators();
}
Parser::Parser(Document* document, ReadonlyBytes bytes)
: m_reader(bytes)
, m_document(document)
{
}
Parser::Parser(ReadonlyBytes bytes)
: m_reader(bytes)
{
}
void Parser::set_document(WeakPtr<Document> const& document)
{
m_document = document;
}
String Parser::parse_comment()
{
if (!m_reader.matches('%'))
return {};
m_reader.consume();
auto comment_start_offset = m_reader.offset();
m_reader.move_until([&](auto) {
return m_reader.matches_eol();
});
String str = StringView(m_reader.bytes().slice(comment_start_offset, m_reader.offset() - comment_start_offset));
m_reader.consume_eol();
m_reader.consume_whitespace();
return str;
}
PDFErrorOr<Value> Parser::parse_value(CanBeIndirectValue can_be_indirect_value)
{
parse_comment();
if (m_reader.matches("null")) {
m_reader.move_by(4);
m_reader.consume_whitespace();
return Value(nullptr);
}
if (m_reader.matches("true")) {
m_reader.move_by(4);
m_reader.consume_whitespace();
return Value(true);
}
if (m_reader.matches("false")) {
m_reader.move_by(5);
m_reader.consume_whitespace();
return Value(false);
}
if (m_reader.matches_number()) {
if (can_be_indirect_value == CanBeIndirectValue::Yes)
return parse_possible_indirect_value_or_ref();
else
return parse_number();
}
if (m_reader.matches('/'))
return MUST(parse_name());
if (m_reader.matches("<<")) {
auto dict = TRY(parse_dict());
if (m_reader.matches("stream"))
return TRY(parse_stream(dict));
return dict;
}
if (m_reader.matches_any('(', '<'))
return parse_string();
if (m_reader.matches('['))
return TRY(parse_array());
return error(String::formatted("Unexpected char \"{}\"", m_reader.peek()));
}
PDFErrorOr<Value> Parser::parse_possible_indirect_value_or_ref()
{
auto first_number = TRY(parse_number());
if (!m_reader.matches_number())
return first_number;
m_reader.save();
auto second_number = parse_number();
if (second_number.is_error()) {
m_reader.load();
return first_number;
}
if (m_reader.matches('R')) {
m_reader.discard();
m_reader.consume();
m_reader.consume_whitespace();
return Value(Reference(first_number.get<int>(), second_number.value().get<int>()));
}
if (m_reader.matches("obj")) {
m_reader.discard();
auto index = first_number.get<int>();
auto generation = second_number.value().get<int>();
VERIFY(index >= 0);
VERIFY(generation >= 0);
return TRY(parse_indirect_value(index, generation));
}
m_reader.load();
return first_number;
}
PDFErrorOr<NonnullRefPtr<IndirectValue>> Parser::parse_indirect_value(u32 index, u32 generation)
{
if (!m_reader.matches("obj"))
return error("Expected \"obj\" at beginning of indirect value");
m_reader.move_by(3);
m_reader.consume_whitespace();
push_reference({ index, generation });
auto value = TRY(parse_value());
if (!m_reader.matches("endobj"))
return error("Expected \"endobj\" at end of indirect value");
m_reader.consume(6);
m_reader.consume_whitespace();
pop_reference();
return make_object<IndirectValue>(index, generation, value);
}
PDFErrorOr<NonnullRefPtr<IndirectValue>> Parser::parse_indirect_value()
{
auto first_number = TRY(parse_number());
auto second_number = TRY(parse_number());
auto index = first_number.get<int>();
auto generation = second_number.get<int>();
VERIFY(index >= 0);
VERIFY(generation >= 0);
return parse_indirect_value(index, generation);
}
PDFErrorOr<Value> Parser::parse_number()
{
size_t start_offset = m_reader.offset();
bool is_float = false;
bool consumed_digit = false;
if (m_reader.matches('+') || m_reader.matches('-'))
m_reader.consume();
while (!m_reader.done()) {
if (m_reader.matches('.')) {
if (is_float)
break;
is_float = true;
m_reader.consume();
} else if (isdigit(m_reader.peek())) {
m_reader.consume();
consumed_digit = true;
} else {
break;
}
}
if (!consumed_digit)
return error("Invalid number");
m_reader.consume_whitespace();
auto string = String(m_reader.bytes().slice(start_offset, m_reader.offset() - start_offset));
float f = strtof(string.characters(), nullptr);
if (is_float)
return Value(f);
VERIFY(floorf(f) == f);
return Value(static_cast<int>(f));
}
PDFErrorOr<NonnullRefPtr<NameObject>> Parser::parse_name()
{
if (!m_reader.consume('/'))
return error("Expected Name object to start with \"/\"");
StringBuilder builder;
while (true) {
if (!m_reader.matches_regular_character())
break;
if (m_reader.matches('#')) {
m_reader.consume();
int hex_value = 0;
for (int i = 0; i < 2; i++) {
auto ch = m_reader.consume();
VERIFY(isxdigit(ch));
hex_value *= 16;
if (ch <= '9') {
hex_value += ch - '0';
} else {
hex_value += ch - 'A' + 10;
}
}
builder.append(static_cast<char>(hex_value));
continue;
}
builder.append(m_reader.consume());
}
m_reader.consume_whitespace();
return make_object<NameObject>(builder.to_string());
}
NonnullRefPtr<StringObject> Parser::parse_string()
{
ScopeGuard guard([&] { m_reader.consume_whitespace(); });
String string;
bool is_binary_string;
if (m_reader.matches('(')) {
string = parse_literal_string();
is_binary_string = false;
} else {
string = parse_hex_string();
is_binary_string = true;
}
VERIFY(!string.is_null());
auto string_object = make_object<StringObject>(string, is_binary_string);
if (m_document->security_handler() && !m_disable_encryption)
m_document->security_handler()->decrypt(string_object, m_current_reference_stack.last());
auto unencrypted_string = string_object->string();
if (unencrypted_string.bytes().starts_with(Array<u8, 2> { 0xfe, 0xff })) {
// The string is encoded in UTF16-BE
string_object->set_string(TextCodec::decoder_for("utf-16be")->to_utf8(unencrypted_string));
} else if (unencrypted_string.bytes().starts_with(Array<u8, 3> { 239, 187, 191 })) {
// The string is encoded in UTF-8. This is the default anyways, but if these bytes
// are explicitly included, we have to trim them
string_object->set_string(unencrypted_string.substring(3));
}
return string_object;
}
String Parser::parse_literal_string()
{
VERIFY(m_reader.consume('('));
StringBuilder builder;
auto opened_parens = 0;
while (true) {
if (m_reader.matches('(')) {
opened_parens++;
builder.append(m_reader.consume());
} else if (m_reader.matches(')')) {
m_reader.consume();
if (opened_parens == 0)
break;
opened_parens--;
builder.append(')');
} else if (m_reader.matches('\\')) {
m_reader.consume();
if (m_reader.matches_eol()) {
m_reader.consume_eol();
continue;
}
if (m_reader.done())
return {};
auto ch = m_reader.consume();
switch (ch) {
case 'n':
builder.append('\n');
break;
case 'r':
builder.append('\r');
break;
case 't':
builder.append('\t');
break;
case 'b':
builder.append('\b');
break;
case 'f':
builder.append('\f');
break;
case '(':
builder.append('(');
break;
case ')':
builder.append(')');
break;
case '\\':
builder.append('\\');
break;
default: {
if (ch >= '0' && ch <= '7') {
int octal_value = ch - '0';
for (int i = 0; i < 2; i++) {
auto octal_ch = m_reader.consume();
if (octal_ch < '0' || octal_ch > '7')
break;
octal_value = octal_value * 8 + (octal_ch - '0');
}
builder.append(static_cast<char>(octal_value));
} else {
builder.append(ch);
}
}
}
} else if (m_reader.matches_eol()) {
m_reader.consume_eol();
builder.append('\n');
} else {
builder.append(m_reader.consume());
}
}
return builder.to_string();
}
String Parser::parse_hex_string()
{
VERIFY(m_reader.consume('<'));
StringBuilder builder;
while (true) {
if (m_reader.matches('>')) {
m_reader.consume();
return builder.to_string();
} else {
int hex_value = 0;
for (int i = 0; i < 2; i++) {
auto ch = m_reader.consume();
if (ch == '>') {
// The hex string contains an odd number of characters, and the last character
// is assumed to be '0'
m_reader.consume();
hex_value *= 16;
builder.append(static_cast<char>(hex_value));
return builder.to_string();
}
VERIFY(isxdigit(ch));
hex_value *= 16;
if (ch <= '9') {
hex_value += ch - '0';
} else if (ch >= 'A' && ch <= 'F') {
hex_value += ch - 'A' + 10;
} else {
hex_value += ch - 'a' + 10;
}
}
builder.append(static_cast<char>(hex_value));
}
}
}
PDFErrorOr<NonnullRefPtr<ArrayObject>> Parser::parse_array()
{
if (!m_reader.consume('['))
return error("Expected array to start with \"[\"");
m_reader.consume_whitespace();
Vector<Value> values;
while (!m_reader.matches(']'))
values.append(TRY(parse_value()));
VERIFY(m_reader.consume(']'));
m_reader.consume_whitespace();
return make_object<ArrayObject>(values);
}
PDFErrorOr<NonnullRefPtr<DictObject>> Parser::parse_dict()
{
if (!m_reader.consume('<') || !m_reader.consume('<'))
return error("Expected dict to start with \"<<\"");
m_reader.consume_whitespace();
HashMap<FlyString, Value> map;
while (!m_reader.done()) {
if (m_reader.matches(">>"))
break;
auto name = TRY(parse_name())->name();
auto value = TRY(parse_value());
map.set(name, value);
}
if (!m_reader.consume('>') || !m_reader.consume('>'))
return error("Expected dict to end with \">>\"");
m_reader.consume_whitespace();
return make_object<DictObject>(map);
}
PDFErrorOr<NonnullRefPtr<StreamObject>> Parser::parse_stream(NonnullRefPtr<DictObject> dict)
{
if (!m_reader.matches("stream"))
return error("Expected stream to start with \"stream\"");
m_reader.move_by(6);
if (!m_reader.consume_eol())
return error("Expected \"stream\" to be followed by a newline");
ReadonlyBytes bytes;
auto maybe_length = dict->get(CommonNames::Length);
if (maybe_length.has_value() && (!maybe_length->has<Reference>())) {
// The PDF writer has kindly provided us with the direct length of the stream
m_reader.save();
auto length = TRY(m_document->resolve_to<int>(maybe_length.value()));
m_reader.load();
bytes = m_reader.bytes().slice(m_reader.offset(), length);
m_reader.move_by(length);
m_reader.consume_whitespace();
} else {
// We have to look for the endstream keyword
auto stream_start = m_reader.offset();
while (true) {
m_reader.move_until([&](auto) { return m_reader.matches_eol(); });
auto potential_stream_end = m_reader.offset();
m_reader.consume_eol();
if (!m_reader.matches("endstream"))
continue;
bytes = m_reader.bytes().slice(stream_start, potential_stream_end - stream_start);
break;
}
}
m_reader.move_by(9);
m_reader.consume_whitespace();
auto stream_object = make_object<StreamObject>(dict, MUST(ByteBuffer::copy(bytes)));
if (m_document->security_handler() && !m_disable_encryption)
m_document->security_handler()->decrypt(stream_object, m_current_reference_stack.last());
if (dict->contains(CommonNames::Filter)) {
Vector<FlyString> filters;
// We may either get a single filter or an array of cascading filters
auto filter_object = TRY(dict->get_object(m_document, CommonNames::Filter));
if (filter_object->is<ArrayObject>()) {
auto filter_array = filter_object->cast<ArrayObject>();
for (size_t i = 0; i < filter_array->size(); ++i)
filters.append(TRY(filter_array->get_name_at(m_document, i))->name());
} else {
filters.append(filter_object->cast<NameObject>()->name());
}
for (auto const& filter_type : filters)
stream_object->buffer() = TRY(Filter::decode(stream_object->bytes(), filter_type));
}
return stream_object;
}
PDFErrorOr<Vector<Operator>> Parser::parse_operators()
{
Vector<Operator> operators;
Vector<Value> operator_args;
constexpr static auto is_operator_char = [](char ch) {
return isalpha(ch) || ch == '*' || ch == '\'';
};
m_reader.consume_whitespace();
while (!m_reader.done()) {
auto ch = m_reader.peek();
if (is_operator_char(ch)) {
auto operator_start = m_reader.offset();
while (is_operator_char(ch)) {
m_reader.consume();
if (m_reader.done())
break;
ch = m_reader.peek();
}
auto operator_string = StringView(m_reader.bytes().slice(operator_start, m_reader.offset() - operator_start));
auto operator_type = Operator::operator_type_from_symbol(operator_string);
operators.append(Operator(operator_type, move(operator_args)));
operator_args = Vector<Value>();
m_reader.consume_whitespace();
continue;
}
// Note: We disallow parsing indirect values here, since
// operations like 0 0 0 RG would confuse the parser
auto v = TRY(parse_value(CanBeIndirectValue::No));
operator_args.append(v);
}
return operators;
}
Error Parser::error(
String const& message
#ifdef PDF_DEBUG
,
SourceLocation loc
#endif
) const
{
#ifdef PDF_DEBUG
dbgln("\033[31m{} Parser error at offset {}: {}\033[0m", loc, m_reader.offset(), message);
#endif
return Error { Error::Type::Parse, message };
}
}
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