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ladybird/Userland/Libraries/LibPDF/Parser.cpp
Nico Weber e39a790c82 LibPDF: Stop converting encodings in object parser 
Per 1.7 spec 3.8.1, there are multiple logical text string types:
* text strings
* ASCII strings
* byte strings

Text strings can be in UTF-16BE, PDFDocEncoding, or (since PDF 2.0)
UTF-8.

But byte strings shouldn't be converted but treated as binary
data.

This makes us no longer convert strings used for drawing page text.
TABLE 5.6 "Text-showing operators" lists the operands for text-showing
operators as just "string", not "text string" (even though these strings
confusingly are called "text strings" in the body text), so not doing
this there is correct (and matches other viewers).

We also no longer incorrectly convert strings used for cypto data
(such as passwords), if they start with an UTF-16BE or UTF-8 marker.

No behavior change for outlines and info dict entries.

https://pdfa.org/understanding-utf-8-in-pdf-2-0/ has a good overview of
this.

(ASCII strings only contain ASCII characters and behave the same
anyways.)
2023-11-22 09:08:06 -07:00

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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 <ctype.h>
namespace PDF {
PDFErrorOr<Vector<Operator>> Parser::parse_operators(Document* document, ReadonlyBytes bytes)
{
Parser parser(document, bytes);
parser.m_enable_encryption = false;
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;
}
DeprecatedString Parser::parse_comment()
{
StringBuilder comment;
while (true) {
if (!m_reader.matches('%'))
break;
m_reader.consume();
auto comment_start_offset = m_reader.offset();
m_reader.move_until([&](auto) {
return m_reader.matches_eol();
});
comment.append(m_reader.bytes().slice(comment_start_offset, m_reader.offset() - comment_start_offset));
m_reader.consume_eol();
m_reader.consume_whitespace();
}
return comment.to_deprecated_string();
}
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());
dbgln_if(PDF_DEBUG, "Unexpected char \"{}\"", m_reader.peek());
return error("Unexpected character");
}
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()
{
m_reader.consume_whitespace();
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 = DeprecatedString(m_reader.bytes().slice(start_offset, m_reader.offset() - start_offset));
if (is_float)
return Value(strtof(string.characters(), nullptr));
return Value(atoi(string.characters()));
}
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_deprecated_string());
}
PDFErrorOr<NonnullRefPtr<StringObject>> Parser::parse_string()
{
ScopeGuard guard([&] { m_reader.consume_whitespace(); });
DeprecatedString string;
bool is_binary_string;
if (m_reader.matches('(')) {
string = TRY(parse_literal_string());
is_binary_string = false;
} else {
string = TRY(parse_hex_string());
is_binary_string = true;
}
auto string_object = make_object<StringObject>(string, is_binary_string);
if (m_document->security_handler() && m_enable_encryption)
m_document->security_handler()->decrypt(string_object, m_current_reference_stack.last());
return string_object;
}
PDFErrorOr<DeprecatedString> Parser::parse_literal_string()
{
VERIFY(m_reader.consume('('));
StringBuilder builder;
auto opened_parens = 0;
while (true) {
if (m_reader.done())
return error("unterminated string literal");
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 error("out of data in string literal after \\");
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_deprecated_string();
}
PDFErrorOr<DeprecatedString> Parser::parse_hex_string()
{
VERIFY(m_reader.consume('<'));
StringBuilder builder;
while (true) {
if (m_reader.matches('>')) {
m_reader.consume();
return builder.to_deprecated_string();
} else {
int hex_value = 0;
for (int i = 0; i < 2; i++) {
m_reader.consume_whitespace();
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_deprecated_string();
}
if (!isxdigit(ch))
return error("character in hex string isn't hex digit");
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<DeprecatedFlyString, Value> map;
while (!m_reader.done()) {
parse_comment();
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>(move(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() && m_document->can_resolve_references()) {
// 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 (!m_reader.matches("endstream")) {
m_reader.consume();
m_reader.move_until('e');
}
auto stream_end = m_reader.offset();
m_reader.consume_eol();
bytes = m_reader.bytes().slice(stream_start, stream_end - stream_start);
}
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_enable_encryption)
m_document->security_handler()->decrypt(stream_object, m_current_reference_stack.last());
if (dict->contains(CommonNames::Filter) && m_enable_filters) {
Vector<DeprecatedFlyString> filters = TRY(m_document->read_filters(dict));
// Every filter may get its own parameter dictionary
Vector<RefPtr<DictObject>> decode_parms_vector;
RefPtr<Object> decode_parms_object;
if (dict->contains(CommonNames::DecodeParms)) {
decode_parms_object = TRY(dict->get_object(m_document, CommonNames::DecodeParms));
if (decode_parms_object->is<ArrayObject>()) {
auto decode_parms_array = decode_parms_object->cast<ArrayObject>();
for (size_t i = 0; i < decode_parms_array->size(); ++i) {
RefPtr<DictObject> decode_parms;
auto entry = decode_parms_array->at(i);
if (entry.has<NonnullRefPtr<Object>>())
decode_parms = entry.get<NonnullRefPtr<Object>>()->cast<DictObject>();
decode_parms_vector.append(decode_parms);
}
} else {
decode_parms_vector.append(decode_parms_object->cast<DictObject>());
}
}
VERIFY(decode_parms_vector.is_empty() || decode_parms_vector.size() == filters.size());
for (size_t i = 0; i < filters.size(); ++i) {
RefPtr<DictObject> decode_parms;
if (!decode_parms_vector.is_empty())
decode_parms = decode_parms_vector.at(i);
stream_object->buffer() = TRY(Filter::decode(stream_object->bytes(), filters.at(i), decode_parms));
}
}
return stream_object;
}
PDFErrorOr<Vector<Operator>> Parser::parse_operators()
{
Vector<Operator> operators;
Vector<Value> operator_args;
constexpr static auto is_operator_char_start = [](char ch) {
return isalpha(ch) || ch == '*' || ch == '\'' || ch == '"';
};
constexpr static auto is_operator_char_continuation = [](char ch) {
return is_operator_char_start(ch) || ch == '0' || ch == '1';
};
m_reader.consume_whitespace();
while (!m_reader.done()) {
parse_comment();
auto ch = m_reader.peek();
if (is_operator_char_start(ch)) {
auto operator_start = m_reader.offset();
while (is_operator_char_continuation(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));
m_reader.consume_whitespace();
auto operator_type = Operator::operator_type_from_symbol(operator_string);
// Inline images contain a dictionary containing arbitrary values between BI and ID,
// and then arbitrary binary data between ID and EI.
// This means they need a special code path in the parser, so that image data in there doesn't confuse the operator parser.
if (operator_type == OperatorType::InlineImageBegin) {
if (!operator_args.is_empty())
return error("operator args not empty on start of inline image");
// FIXME: `EI` can be part of the image data, e.g. on page 3 of 0000450.pdf of 0000.zip of the RGBA dataset.
while (!m_reader.done()) {
if (m_reader.matches("EI")) {
break;
}
m_reader.consume();
}
if (m_reader.done())
return error("operator stream ended inside inline image");
m_reader.consume(2); // "EI"
m_reader.consume_whitespace();
// FIXME: Do more with inline images than just skipping them.
}
operators.append(Operator(operator_type, move(operator_args)));
operator_args = Vector<Value>();
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(
DeprecatedString 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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