// Copyright (C) 2018-2021 Jakub Melka
//
// This file is part of PDF4QT.
//
// PDF4QT is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// with the written consent of the copyright owner, any later version.
//
// PDF4QT is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with PDF4QT. If not, see .
#include "pdfxreftable.h"
#include "pdfconstants.h"
#include "pdfexception.h"
#include "pdfparser.h"
#include "pdfstreamfilters.h"
#include
namespace pdf
{
void PDFXRefTable::readXRefTable(PDFParsingContext* context, const QByteArray& byteArray, PDFInteger startTableOffset)
{
PDFParser parser(byteArray, context, PDFParser::AllowStreams);
m_entries.clear();
std::set processedOffsets;
std::stack workSet;
workSet.push(startTableOffset);
while (!workSet.empty())
{
PDFInteger currentOffset = workSet.top();
workSet.pop();
// Check, if we have cyclical references between tables
if (processedOffsets.count(currentOffset))
{
// If cyclical reference occurs, do not report error, just ignore it.
continue;
}
else
{
processedOffsets.insert(currentOffset);
}
// Now, we are ready to scan the table. Seek to the start of the reference table.
parser.seek(currentOffset);
if (parser.fetchCommand(PDF_XREF_HEADER))
{
while (!parser.fetchCommand(PDF_XREF_TRAILER))
{
// Now, first number is start offset, second number is count of table items
PDFObject firstObject = parser.getObject();
PDFObject countObject = parser.getObject();
if (!firstObject.isInt() || !countObject.isInt())
{
throw PDFException(tr("Invalid format of reference table."));
}
PDFInteger firstObjectNumber = firstObject.getInteger();
PDFInteger count = countObject.getInteger();
const PDFInteger lastObjectIndex = firstObjectNumber + count - 1;
const PDFInteger desiredSize = lastObjectIndex + 1;
if (static_cast(m_entries.size()) < desiredSize)
{
m_entries.resize(desiredSize);
}
// Now, read the records
for (PDFInteger i = 0; i < count; ++i)
{
const PDFInteger objectNumber = firstObjectNumber + i;
PDFObject offset = parser.getObject();
PDFObject generation = parser.getObject();
bool occupied = parser.fetchCommand(PDF_XREF_OCCUPIED);
if (!occupied && !parser.fetchCommand(PDF_XREF_FREE))
{
throw PDFException(tr("Bad format of reference table entry."));
}
if (!offset.isInt() || !generation.isInt())
{
throw PDFException(tr("Bad format of reference table entry."));
}
if (static_cast(objectNumber) >= m_entries.size())
{
throw PDFException(tr("Bad format of reference table entry."));
}
Entry entry;
if (occupied)
{
entry.reference = PDFObjectReference(objectNumber, generation.getInteger());
entry.offset = offset.getInteger();
entry.type = EntryType::Occupied;
}
if (m_entries[objectNumber].type == EntryType::Free)
{
m_entries[objectNumber] = std::move(entry);
}
}
}
PDFObject trailerDictionary = parser.getObject();
if (!trailerDictionary.isDictionary())
{
throw PDFException(tr("Trailer dictionary is invalid."));
}
// Now, we have scanned the table. If we didn't have a trailer dictionary yet, then
// try to load it. We must also check, that trailer dictionary is OK.
if (m_trailerDictionary.isNull())
{
m_trailerDictionary = trailerDictionary;
}
const PDFDictionary* dictionary = trailerDictionary.getDictionary();
if (dictionary->hasKey(PDF_XREF_TRAILER_PREVIOUS))
{
PDFObject previousOffset = dictionary->get(PDF_XREF_TRAILER_PREVIOUS);
if (!previousOffset.isInt())
{
throw PDFException(tr("Offset of previous reference table is invalid."));
}
workSet.push(previousOffset.getInteger());
}
const PDFObject& xrefstmObject = dictionary->get(PDF_XREF_TRAILER_XREFSTM);
if (xrefstmObject.isInt())
{
workSet.push(xrefstmObject.getInteger());
}
}
else
{
// Try to read cross-reference stream
PDFObject crossReferenceStreamObjectNumber = parser.getObject();
PDFObject crossReferenceStreamGeneration = parser.getObject();
if (!crossReferenceStreamObjectNumber.isInt() || !crossReferenceStreamGeneration.isInt())
{
throw PDFException(tr("Invalid format of reference table."));
}
if (!parser.fetchCommand(PDF_OBJECT_START_MARK))
{
throw PDFException(tr("Invalid format of reference table."));
}
PDFObject crossReferenceObject = parser.getObject();
if (!parser.fetchCommand(PDF_OBJECT_END_MARK))
{
throw PDFException(tr("Invalid format of reference table."));
}
if (crossReferenceObject.isStream())
{
const PDFStream* crossReferenceStream = crossReferenceObject.getStream();
const PDFDictionary* crossReferenceStreamDictionary = crossReferenceStream->getDictionary();
const PDFObject typeObject = crossReferenceStreamDictionary->get("Type");
if (typeObject.isName() && typeObject.getString() == "XRef")
{
PDFObject sizeObject = crossReferenceStreamDictionary->get("Size");
if (!sizeObject.isInt() || sizeObject.getInteger() < 0)
{
throw PDFException(tr("Invalid format of cross-reference stream."));
}
const PDFInteger desiredSize = sizeObject.getInteger();
if (static_cast(m_entries.size()) < desiredSize)
{
m_entries.resize(desiredSize);
}
PDFObject prevObject = crossReferenceStreamDictionary->get("Prev");
if (prevObject.isInt())
{
workSet.push(prevObject.getInteger());
}
// Do not overwrite trailer dictionary, if it was already loaded.
if (m_trailerDictionary.isNull())
{
m_trailerDictionary = crossReferenceObject;
}
auto readIntegerArray = [crossReferenceStreamDictionary](const char* key, auto defaultValues) -> std::vector
{
std::vector result;
const PDFObject& object = crossReferenceStreamDictionary->get(key);
if (object.isArray())
{
const PDFArray* array = object.getArray();
result.reserve(array->getCount());
for (size_t i = 0, count = array->getCount(); i < count; ++i)
{
const PDFObject& itemObject = array->getItem(i);
if (itemObject.isInt())
{
result.push_back(itemObject.getInteger());
}
else
{
throw PDFException(tr("Invalid format of cross-reference stream."));
}
}
}
else
{
result = defaultValues;
}
return result;
};
std::vector indexArray = readIntegerArray("Index", std::initializer_list{ PDFInteger(0), PDFInteger(desiredSize) });
std::vector wArray = readIntegerArray("W", std::vector());
if (wArray.size() != 3 || indexArray.empty() || (indexArray.size() % 2 != 0))
{
throw PDFException(tr("Invalid format of cross-reference stream."));
}
const int columnTypeBytes = wArray[0];
const int columnObjectNumberOrByteOffsetBytes = wArray[1];
const int columnGenerationNumberOrObjectIndexBytes = wArray[2];
const size_t blockCount = indexArray.size() / 2;
QByteArray data = PDFStreamFilterStorage::getDecodedStream(crossReferenceStream, nullptr);
QDataStream dataStream(&data, QIODevice::ReadOnly);
dataStream.setByteOrder(QDataStream::BigEndian);
auto readNumber = [&dataStream](int bytes, PDFInteger defaultValue) -> PDFInteger
{
if (bytes)
{
uint64_t value = 0;
while (bytes--)
{
uint8_t byte = 0;
dataStream >> byte;
value = (value << 8) + byte;
// Check, if stream is OK (we doesn't read past the end of the stream,
// data aren't corrupted etc.)
if (dataStream.status() != QDataStream::Ok)
{
throw PDFException(tr("Invalid format of cross-reference stream - not enough data in the stream."));
}
}
return static_cast(value);
}
return defaultValue;
};
for (size_t i = 0; i < blockCount; ++i)
{
PDFInteger firstObjectNumber = indexArray[2 * i];
PDFInteger count = indexArray[2 * i + 1];
const PDFInteger lastObjectIndex = firstObjectNumber + count - 1;
const PDFInteger desiredSize = lastObjectIndex + 1;
if (static_cast(m_entries.size()) < desiredSize)
{
m_entries.resize(desiredSize);
}
for (PDFInteger objectNumber = firstObjectNumber; objectNumber <= lastObjectIndex; ++ objectNumber)
{
int itemType = readNumber(columnTypeBytes, 1);
int itemObjectNumberOfObjectStreamOrByteOffset = readNumber(columnObjectNumberOrByteOffsetBytes, 0);
int itemGenerationNumberOrObjectIndex = readNumber(columnGenerationNumberOrObjectIndexBytes, 0);
switch (itemType)
{
case 0:
// Free object
break;
case 1:
{
Entry entry;
entry.reference = PDFObjectReference(objectNumber, itemGenerationNumberOrObjectIndex);
entry.offset = itemObjectNumberOfObjectStreamOrByteOffset;
entry.type = EntryType::Occupied;
if (m_entries[objectNumber].type == EntryType::Free)
{
m_entries[objectNumber] = std::move(entry);
}
break;
}
case 2:
{
Entry entry;
entry.reference = PDFObjectReference(objectNumber, 0);
entry.objectStream = PDFObjectReference(itemObjectNumberOfObjectStreamOrByteOffset, 0);
entry.indexInObjectStream = itemGenerationNumberOrObjectIndex;
entry.type = EntryType::InObjectStream;
if (m_entries[objectNumber].type == EntryType::Free)
{
m_entries[objectNumber] = std::move(entry);
}
break;
}
default:
// According to the specification, treat this object as null object
break;
}
}
}
}
continue;
}
throw PDFException(tr("Invalid format of reference table."));
}
}
}
std::vector PDFXRefTable::getOccupiedEntries() const
{
std::vector result;
// Suppose majority of items are occupied
result.reserve(m_entries.size());
std::copy_if(m_entries.cbegin(), m_entries.cend(), std::back_inserter(result), [](const Entry& entry) { return entry.type == EntryType::Occupied; });
return result;
}
std::vector PDFXRefTable::getObjectStreamEntries() const
{
std::vector result;
// Suppose majority of items are occupied
result.reserve(m_entries.size());
std::copy_if(m_entries.cbegin(), m_entries.cend(), std::back_inserter(result), [](const Entry& entry) { return entry.type == EntryType::InObjectStream; });
return result;
}
const PDFXRefTable::Entry& PDFXRefTable::getEntry(PDFObjectReference reference) const
{
// We must also check generation number here. For this reason, we compare references of the entry at given position.
if (reference.objectNumber >= 0 && reference.objectNumber < static_cast(m_entries.size()) && m_entries[reference.objectNumber].reference == reference)
{
return m_entries[reference.objectNumber];
}
else
{
static Entry dummy;
return dummy;
}
}
} // namespace pdf