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ladybird/Userland/Libraries/LibPDF/Document.cpp
Daniel Bertalan d7b6cc6421 Everywhere: Prevent risky implicit casts of (Nonnull)RefPtr 
Our existing implementation did not check the element type of the other
pointer in the constructors and move assignment operators. This meant
that some operations that would require explicit casting on raw pointers
were done implicitly, such as:
- downcasting a base class to a derived class (e.g. `Kernel::Inode` =>
  `Kernel::ProcFSDirectoryInode` in Kernel/ProcFS.cpp),
- casting to an unrelated type (e.g. `Promise<bool>` => `Promise<Empty>`
  in LibIMAP/Client.cpp)

This, of course, allows gross violations of the type system, and makes
the need to type-check less obvious before downcasting. Luckily, while
adding the `static_ptr_cast`s, only two truly incorrect usages were
found; in the other instances, our casts just needed to be made
explicit.
2021-09-03 23:20:23 +02:00

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/*
* Copyright (c) 2021, Matthew Olsson <mattco@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibPDF/CommonNames.h>
#include <LibPDF/Document.h>
#include <LibPDF/Parser.h>
namespace PDF {
String OutlineItem::to_string(int indent) const
{
auto indent_str = String::repeated(" ", indent + 1);
StringBuilder child_builder;
child_builder.append('[');
for (auto& child : children)
child_builder.appendff("{}\n", child.to_string(indent + 1));
child_builder.appendff("{}]", indent_str);
StringBuilder builder;
builder.append("OutlineItem {{\n");
builder.appendff("{}title={}\n", indent_str, title);
builder.appendff("{}count={}\n", indent_str, count);
builder.appendff("{}dest={}\n", indent_str, dest);
builder.appendff("{}color={}\n", indent_str, color);
builder.appendff("{}italic={}\n", indent_str, italic);
builder.appendff("{}bold={}\n", indent_str, bold);
builder.appendff("{}children={}\n", indent_str, child_builder.to_string());
builder.appendff("{}}}", String::repeated(" ", indent));
return builder.to_string();
}
RefPtr<Document> Document::create(ReadonlyBytes const& bytes)
{
auto parser = adopt_ref(*new Parser({}, bytes));
auto document = adopt_ref(*new Document(parser));
if (!parser->initialize())
return {};
document->m_catalog = parser->trailer()->get_dict(document, CommonNames::Root);
document->build_page_tree();
document->build_outline();
return document;
}
Document::Document(NonnullRefPtr<Parser> const& parser)
: m_parser(parser)
{
m_parser->set_document(this);
}
Value Document::get_or_load_value(u32 index)
{
auto value = get_value(index);
if (value)
return value;
auto object = m_parser->parse_object_with_index(index);
m_values.set(index, object);
return object;
}
u32 Document::get_first_page_index() const
{
// FIXME: A PDF can have a different default first page, which
// should be fetched and returned here
return 0;
}
u32 Document::get_page_count() const
{
return m_page_object_indices.size();
}
Page Document::get_page(u32 index)
{
VERIFY(index < m_page_object_indices.size());
auto cached_page = m_pages.get(index);
if (cached_page.has_value())
return cached_page.value();
auto page_object_index = m_page_object_indices[index];
auto raw_page_object = resolve_to<DictObject>(get_or_load_value(page_object_index));
if (!raw_page_object->contains(CommonNames::Resources)) {
// This page inherits its resource dictionary
TODO();
}
auto resources = raw_page_object->get_dict(this, CommonNames::Resources);
auto contents = raw_page_object->get_object(this, CommonNames::Contents);
auto media_box_array = raw_page_object->get_array(this, CommonNames::MediaBox);
auto media_box = Rectangle {
media_box_array->at(0).to_float(),
media_box_array->at(1).to_float(),
media_box_array->at(2).to_float(),
media_box_array->at(3).to_float(),
};
auto crop_box = media_box;
if (raw_page_object->contains(CommonNames::CropBox)) {
auto crop_box_array = raw_page_object->get_array(this, CommonNames::CropBox);
crop_box = Rectangle {
crop_box_array->at(0).to_float(),
crop_box_array->at(1).to_float(),
crop_box_array->at(2).to_float(),
crop_box_array->at(3).to_float(),
};
}
float user_unit = 1.0f;
if (raw_page_object->contains(CommonNames::UserUnit))
user_unit = raw_page_object->get_value(CommonNames::UserUnit).to_float();
int rotate = 0;
if (raw_page_object->contains(CommonNames::Rotate)) {
rotate = raw_page_object->get_value(CommonNames::Rotate).as_int();
VERIFY(rotate % 90 == 0);
}
Page page { move(resources), move(contents), media_box, crop_box, user_unit, rotate };
m_pages.set(index, page);
return page;
}
Value Document::resolve(Value const& value)
{
if (value.is_ref()) {
// FIXME: Surely indirect PDF objects can't contain another indirect PDF object,
// right? Unsure from the spec, but if they can, these return values would have
// to be wrapped with another resolve() call.
return get_or_load_value(value.as_ref_index());
}
if (!value.is_object())
return value;
auto obj = value.as_object();
if (obj->is_indirect_value())
return static_ptr_cast<IndirectValue>(obj)->value();
return obj;
}
bool Document::build_page_tree()
{
if (!m_catalog->contains(CommonNames::Pages))
return false;
auto page_tree = m_catalog->get_dict(this, CommonNames::Pages);
return add_page_tree_node_to_page_tree(page_tree);
}
bool Document::add_page_tree_node_to_page_tree(NonnullRefPtr<DictObject> const& page_tree)
{
if (!page_tree->contains(CommonNames::Kids) || !page_tree->contains(CommonNames::Count))
return false;
auto kids_array = page_tree->get_array(this, CommonNames::Kids);
auto page_count = page_tree->get(CommonNames::Count).value().as_int();
if (static_cast<size_t>(page_count) != kids_array->elements().size()) {
// This page tree contains child page trees, so we recursively add
// these pages to the overall page tree
for (auto& value : *kids_array) {
auto reference_index = value.as_ref_index();
bool ok;
auto maybe_page_tree_node = m_parser->conditionally_parse_page_tree_node(reference_index, ok);
if (!ok)
return false;
if (maybe_page_tree_node) {
if (!add_page_tree_node_to_page_tree(maybe_page_tree_node.release_nonnull()))
return false;
} else {
m_page_object_indices.append(reference_index);
}
}
} else {
// We know all of the kids are leaf nodes
for (auto& value : *kids_array)
m_page_object_indices.append(value.as_ref_index());
}
return true;
}
void Document::build_outline()
{
if (!m_catalog->contains(CommonNames::Outlines))
return;
auto outline_dict = m_catalog->get_dict(this, CommonNames::Outlines);
if (!outline_dict->contains(CommonNames::First))
return;
if (!outline_dict->contains(CommonNames::Last))
return;
auto first_ref = outline_dict->get_value(CommonNames::First);
auto last_ref = outline_dict->get_value(CommonNames::Last);
auto children = build_outline_item_chain(first_ref, last_ref);
m_outline = adopt_ref(*new OutlineDict());
m_outline->children = move(children);
if (outline_dict->contains(CommonNames::Count))
m_outline->count = outline_dict->get_value(CommonNames::Count).as_int();
}
NonnullRefPtr<OutlineItem> Document::build_outline_item(NonnullRefPtr<DictObject> const& outline_item_dict)
{
auto outline_item = adopt_ref(*new OutlineItem {});
if (outline_item_dict->contains(CommonNames::First)) {
VERIFY(outline_item_dict->contains(CommonNames::Last));
auto first_ref = outline_item_dict->get_value(CommonNames::First);
auto last_ref = outline_item_dict->get_value(CommonNames::Last);
auto children = build_outline_item_chain(first_ref, last_ref);
outline_item->children = move(children);
}
outline_item->title = outline_item_dict->get_string(this, CommonNames::Title)->string();
if (outline_item_dict->contains(CommonNames::Count))
outline_item->count = outline_item_dict->get_value(CommonNames::Count).as_int();
if (outline_item_dict->contains(CommonNames::Dest)) {
auto dest_arr = outline_item_dict->get_array(this, CommonNames::Dest);
auto page_ref = dest_arr->at(0);
auto type_name = dest_arr->get_name_at(this, 1)->name();
Vector<float> parameters;
for (size_t i = 2; i < dest_arr->size(); i++)
parameters.append(dest_arr->at(i).to_float());
Destination::Type type;
if (type_name == CommonNames::XYZ) {
type = Destination::Type::XYZ;
} else if (type_name == CommonNames::Fit) {
type = Destination::Type::Fit;
} else if (type_name == CommonNames::FitH) {
type = Destination::Type::FitH;
} else if (type_name == CommonNames::FitV) {
type = Destination::Type::FitV;
} else if (type_name == CommonNames::FitR) {
type = Destination::Type::FitR;
} else if (type_name == CommonNames::FitB) {
type = Destination::Type::FitB;
} else if (type_name == CommonNames::FitBH) {
type = Destination::Type::FitBH;
} else if (type_name == CommonNames::FitBV) {
type = Destination::Type::FitBV;
} else {
VERIFY_NOT_REACHED();
}
outline_item->dest = Destination { type, page_ref, parameters };
}
if (outline_item_dict->contains(CommonNames::C)) {
auto color_array = outline_item_dict->get_array(this, CommonNames::C);
auto r = static_cast<int>(255.0f * color_array->at(0).as_float());
auto g = static_cast<int>(255.0f * color_array->at(1).as_float());
auto b = static_cast<int>(255.0f * color_array->at(2).as_float());
outline_item->color = Color(r, g, b);
}
if (outline_item_dict->contains(CommonNames::F)) {
auto bitfield = outline_item_dict->get_value(CommonNames::F).as_int();
outline_item->italic = bitfield & 0x1;
outline_item->bold = bitfield & 0x2;
}
return outline_item;
}
NonnullRefPtrVector<OutlineItem> Document::build_outline_item_chain(Value const& first_ref, Value const& last_ref)
{
VERIFY(first_ref.is_ref());
VERIFY(last_ref.is_ref());
NonnullRefPtrVector<OutlineItem> children;
auto first_dict = object_cast<DictObject>(get_or_load_value(first_ref.as_ref_index()).as_object());
auto first = build_outline_item(first_dict);
children.append(first);
auto current_child_dict = first_dict;
u32 current_child_index = first_ref.as_ref_index();
while (current_child_dict->contains(CommonNames::Next)) {
auto next_child_dict_ref = current_child_dict->get_value(CommonNames::Next);
current_child_index = next_child_dict_ref.as_ref_index();
auto next_child_dict = object_cast<DictObject>(get_or_load_value(current_child_index).as_object());
auto next_child = build_outline_item(next_child_dict);
children.append(next_child);
current_child_dict = next_child_dict;
}
VERIFY(last_ref.as_ref_index() == current_child_index);
return children;
}
}
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