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mirror of https://github.com/qpdf/qpdf.git synced 2024-12-22 10:58:58 +00:00
qpdf/libqpdf/QPDF.cc
m-holger a367e56afc In QPDF::resolveObjectsInStream avoid creating xref table entries
Invalid entries are created when objects in the stream do not have
an existing xref entry.
2024-07-02 01:16:23 +01:00

2839 lines
95 KiB
C++

#include <qpdf/qpdf-config.h> // include first for large file support
#include <qpdf/QPDF.hh>
#include <array>
#include <atomic>
#include <cstring>
#include <limits>
#include <map>
#include <regex>
#include <sstream>
#include <vector>
#include <qpdf/BufferInputSource.hh>
#include <qpdf/FileInputSource.hh>
#include <qpdf/OffsetInputSource.hh>
#include <qpdf/Pipeline.hh>
#include <qpdf/QPDFExc.hh>
#include <qpdf/QPDFLogger.hh>
#include <qpdf/QPDFObject_private.hh>
#include <qpdf/QPDFParser.hh>
#include <qpdf/QPDF_Array.hh>
#include <qpdf/QPDF_Dictionary.hh>
#include <qpdf/QPDF_Null.hh>
#include <qpdf/QPDF_Reserved.hh>
#include <qpdf/QPDF_Stream.hh>
#include <qpdf/QPDF_Unresolved.hh>
#include <qpdf/QTC.hh>
#include <qpdf/QUtil.hh>
// This must be a fixed value. This API returns a const reference to it, and the C API relies on its
// being static as well.
std::string const QPDF::qpdf_version(QPDF_VERSION);
static char const* EMPTY_PDF = (
// force line break
"%PDF-1.3\n"
"1 0 obj\n"
"<< /Type /Catalog /Pages 2 0 R >>\n"
"endobj\n"
"2 0 obj\n"
"<< /Type /Pages /Kids [] /Count 0 >>\n"
"endobj\n"
"xref\n"
"0 3\n"
"0000000000 65535 f \n"
"0000000009 00000 n \n"
"0000000058 00000 n \n"
"trailer << /Size 3 /Root 1 0 R >>\n"
"startxref\n"
"110\n"
"%%EOF\n");
namespace
{
class InvalidInputSource: public InputSource
{
public:
~InvalidInputSource() override = default;
qpdf_offset_t
findAndSkipNextEOL() override
{
throwException();
return 0;
}
std::string const&
getName() const override
{
static std::string name("closed input source");
return name;
}
qpdf_offset_t
tell() override
{
throwException();
return 0;
}
void
seek(qpdf_offset_t offset, int whence) override
{
throwException();
}
void
rewind() override
{
throwException();
}
size_t
read(char* buffer, size_t length) override
{
throwException();
return 0;
}
void
unreadCh(char ch) override
{
throwException();
}
private:
void
throwException()
{
throw std::logic_error("QPDF operation attempted on a QPDF object with no input "
"source. QPDF operations are invalid before processFile (or "
"another process method) or after closeInputSource");
}
};
} // namespace
QPDF::ForeignStreamData::ForeignStreamData(
std::shared_ptr<EncryptionParameters> encp,
std::shared_ptr<InputSource> file,
QPDFObjGen const& foreign_og,
qpdf_offset_t offset,
size_t length,
QPDFObjectHandle local_dict) :
encp(encp),
file(file),
foreign_og(foreign_og),
offset(offset),
length(length),
local_dict(local_dict)
{
}
QPDF::CopiedStreamDataProvider::CopiedStreamDataProvider(QPDF& destination_qpdf) :
QPDFObjectHandle::StreamDataProvider(true),
destination_qpdf(destination_qpdf)
{
}
bool
QPDF::CopiedStreamDataProvider::provideStreamData(
QPDFObjGen const& og, Pipeline* pipeline, bool suppress_warnings, bool will_retry)
{
std::shared_ptr<ForeignStreamData> foreign_data = foreign_stream_data[og];
bool result = false;
if (foreign_data.get()) {
result = destination_qpdf.pipeForeignStreamData(
foreign_data, pipeline, suppress_warnings, will_retry);
QTC::TC("qpdf", "QPDF copy foreign with data", result ? 0 : 1);
} else {
auto foreign_stream = foreign_streams[og];
result = foreign_stream.pipeStreamData(
pipeline, nullptr, 0, qpdf_dl_none, suppress_warnings, will_retry);
QTC::TC("qpdf", "QPDF copy foreign with foreign_stream", result ? 0 : 1);
}
return result;
}
void
QPDF::CopiedStreamDataProvider::registerForeignStream(
QPDFObjGen const& local_og, QPDFObjectHandle foreign_stream)
{
this->foreign_streams[local_og] = foreign_stream;
}
void
QPDF::CopiedStreamDataProvider::registerForeignStream(
QPDFObjGen const& local_og, std::shared_ptr<ForeignStreamData> foreign_stream)
{
this->foreign_stream_data[local_og] = foreign_stream;
}
QPDF::StringDecrypter::StringDecrypter(QPDF* qpdf, QPDFObjGen const& og) :
qpdf(qpdf),
og(og)
{
}
void
QPDF::StringDecrypter::decryptString(std::string& val)
{
qpdf->decryptString(val, og);
}
std::string const&
QPDF::QPDFVersion()
{
// The C API relies on this being a static value.
return QPDF::qpdf_version;
}
QPDF::EncryptionParameters::EncryptionParameters() :
encrypted(false),
encryption_initialized(false),
encryption_V(0),
encryption_R(0),
encrypt_metadata(true),
cf_stream(e_none),
cf_string(e_none),
cf_file(e_none),
user_password_matched(false),
owner_password_matched(false)
{
}
QPDF::Members::Members() :
log(QPDFLogger::defaultLogger()),
file(new InvalidInputSource()),
encp(new EncryptionParameters)
{
}
QPDF::QPDF() :
m(new Members())
{
m->tokenizer.allowEOF();
// Generate a unique ID. It just has to be unique among all QPDF objects allocated throughout
// the lifetime of this running application.
static std::atomic<unsigned long long> unique_id{0};
m->unique_id = unique_id.fetch_add(1ULL);
}
QPDF::~QPDF()
{
// If two objects are mutually referential (through each object having an array or dictionary
// that contains an indirect reference to the other), the circular references in the
// std::shared_ptr objects will prevent the objects from being deleted. Walk through all objects
// in the object cache, which is those objects that we read from the file, and break all
// resolved indirect references by replacing them with an internal object type representing that
// they have been destroyed. Note that we can't break references like this at any time when the
// QPDF object is active. The call to reset also causes all direct QPDFObjectHandle objects that
// are reachable from this object to release their association with this QPDF. Direct objects
// are not destroyed since they can be moved to other QPDF objects safely.
// At this point, obviously no one is still using the QPDF object, but we'll explicitly clear
// the xref table anyway just to prevent any possibility of resolve() succeeding.
m->xref_table.clear();
for (auto const& iter: m->obj_cache) {
iter.second.object->disconnect();
if (iter.second.object->getTypeCode() != ::ot_null) {
iter.second.object->destroy();
}
}
}
std::shared_ptr<QPDF>
QPDF::create()
{
return std::make_shared<QPDF>();
}
void
QPDF::processFile(char const* filename, char const* password)
{
auto* fi = new FileInputSource(filename);
processInputSource(std::shared_ptr<InputSource>(fi), password);
}
void
QPDF::processFile(char const* description, FILE* filep, bool close_file, char const* password)
{
auto* fi = new FileInputSource(description, filep, close_file);
processInputSource(std::shared_ptr<InputSource>(fi), password);
}
void
QPDF::processMemoryFile(
char const* description, char const* buf, size_t length, char const* password)
{
processInputSource(
std::shared_ptr<InputSource>(
// line-break
new BufferInputSource(
description, new Buffer(QUtil::unsigned_char_pointer(buf), length), true)),
password);
}
void
QPDF::processInputSource(std::shared_ptr<InputSource> source, char const* password)
{
m->file = source;
parse(password);
}
void
QPDF::closeInputSource()
{
m->file = std::shared_ptr<InputSource>(new InvalidInputSource());
}
void
QPDF::setPasswordIsHexKey(bool val)
{
m->provided_password_is_hex_key = val;
}
void
QPDF::emptyPDF()
{
processMemoryFile("empty PDF", EMPTY_PDF, strlen(EMPTY_PDF));
}
void
QPDF::registerStreamFilter(
std::string const& filter_name, std::function<std::shared_ptr<QPDFStreamFilter>()> factory)
{
QPDF_Stream::registerStreamFilter(filter_name, factory);
}
void
QPDF::setIgnoreXRefStreams(bool val)
{
m->ignore_xref_streams = val;
}
std::shared_ptr<QPDFLogger>
QPDF::getLogger()
{
return m->log;
}
void
QPDF::setLogger(std::shared_ptr<QPDFLogger> l)
{
m->log = l;
}
void
QPDF::setOutputStreams(std::ostream* out, std::ostream* err)
{
setLogger(QPDFLogger::create());
m->log->setOutputStreams(out, err);
}
void
QPDF::setSuppressWarnings(bool val)
{
m->suppress_warnings = val;
}
void
QPDF::setAttemptRecovery(bool val)
{
m->attempt_recovery = val;
}
void
QPDF::setImmediateCopyFrom(bool val)
{
m->immediate_copy_from = val;
}
std::vector<QPDFExc>
QPDF::getWarnings()
{
std::vector<QPDFExc> result = m->warnings;
m->warnings.clear();
return result;
}
bool
QPDF::anyWarnings() const
{
return !m->warnings.empty();
}
size_t
QPDF::numWarnings() const
{
return m->warnings.size();
}
bool
QPDF::validatePDFVersion(char const*& p, std::string& version)
{
bool valid = QUtil::is_digit(*p);
if (valid) {
while (QUtil::is_digit(*p)) {
version.append(1, *p++);
}
if ((*p == '.') && QUtil::is_digit(*(p + 1))) {
version.append(1, *p++);
while (QUtil::is_digit(*p)) {
version.append(1, *p++);
}
} else {
valid = false;
}
}
return valid;
}
bool
QPDF::findHeader()
{
qpdf_offset_t global_offset = m->file->tell();
std::string line = m->file->readLine(1024);
char const* p = line.c_str();
if (strncmp(p, "%PDF-", 5) != 0) {
throw std::logic_error("findHeader is not looking at %PDF-");
}
p += 5;
std::string version;
// Note: The string returned by line.c_str() is always null-terminated. The code below never
// overruns the buffer because a null character always short-circuits further advancement.
bool valid = validatePDFVersion(p, version);
if (valid) {
m->pdf_version = version;
if (global_offset != 0) {
// Empirical evidence strongly suggests that when there is leading material prior to the
// PDF header, all explicit offsets in the file are such that 0 points to the beginning
// of the header.
QTC::TC("qpdf", "QPDF global offset");
m->file = std::shared_ptr<InputSource>(new OffsetInputSource(m->file, global_offset));
}
}
return valid;
}
bool
QPDF::findStartxref()
{
if (readToken(m->file).isWord("startxref") && readToken(m->file).isInteger()) {
// Position in front of offset token
m->file->seek(m->file->getLastOffset(), SEEK_SET);
return true;
}
return false;
}
void
QPDF::parse(char const* password)
{
if (password) {
m->encp->provided_password = password;
}
// Find the header anywhere in the first 1024 bytes of the file.
PatternFinder hf(*this, &QPDF::findHeader);
if (!m->file->findFirst("%PDF-", 0, 1024, hf)) {
QTC::TC("qpdf", "QPDF not a pdf file");
warn(damagedPDF("", 0, "can't find PDF header"));
// QPDFWriter writes files that usually require at least version 1.2 for /FlateDecode
m->pdf_version = "1.2";
}
// PDF spec says %%EOF must be found within the last 1024 bytes of/ the file. We add an extra
// 30 characters to leave room for the startxref stuff.
m->file->seek(0, SEEK_END);
qpdf_offset_t end_offset = m->file->tell();
m->xref_table_max_offset = end_offset;
// Sanity check on object ids. All objects must appear in xref table / stream. In all realistic
// scenarios at least 3 bytes are required.
if (m->xref_table_max_id > m->xref_table_max_offset / 3) {
m->xref_table_max_id = static_cast<int>(m->xref_table_max_offset / 3);
}
qpdf_offset_t start_offset = (end_offset > 1054 ? end_offset - 1054 : 0);
PatternFinder sf(*this, &QPDF::findStartxref);
qpdf_offset_t xref_offset = 0;
if (m->file->findLast("startxref", start_offset, 0, sf)) {
xref_offset = QUtil::string_to_ll(readToken(m->file).getValue().c_str());
}
try {
if (xref_offset == 0) {
QTC::TC("qpdf", "QPDF can't find startxref");
throw damagedPDF("", 0, "can't find startxref");
}
try {
read_xref(xref_offset);
} catch (QPDFExc&) {
throw;
} catch (std::exception& e) {
throw damagedPDF("", 0, std::string("error reading xref: ") + e.what());
}
} catch (QPDFExc& e) {
if (m->attempt_recovery) {
reconstruct_xref(e);
QTC::TC("qpdf", "QPDF reconstructed xref table");
} else {
throw;
}
}
initializeEncryption();
m->parsed = true;
if (m->xref_table.size() > 0 && !getRoot().getKey("/Pages").isDictionary()) {
// QPDFs created from JSON have an empty xref table and no root object yet.
throw damagedPDF("", 0, "unable to find page tree");
}
}
void
QPDF::inParse(bool v)
{
if (m->in_parse == v) {
// This happens if QPDFParser::parse tries to resolve an indirect object while it is
// parsing.
throw std::logic_error("QPDF: re-entrant parsing detected. This is a qpdf bug."
" Please report at https://github.com/qpdf/qpdf/issues.");
}
m->in_parse = v;
}
void
QPDF::warn(QPDFExc const& e)
{
m->warnings.push_back(e);
if (!m->suppress_warnings) {
#ifdef QPDF_OSS_FUZZ
if (m->warnings.size() > 20) {
*m->log->getWarn() << "WARNING: too many warnings - additional warnings surpressed\n";
m->suppress_warnings = true;
return;
}
#endif
*m->log->getWarn() << "WARNING: " << m->warnings.back().what() << "\n";
}
}
void
QPDF::warn(
qpdf_error_code_e error_code,
std::string const& object,
qpdf_offset_t offset,
std::string const& message)
{
warn(QPDFExc(error_code, getFilename(), object, offset, message));
}
void
QPDF::setTrailer(QPDFObjectHandle obj)
{
if (m->trailer.isInitialized()) {
return;
}
m->trailer = obj;
}
void
QPDF::reconstruct_xref(QPDFExc& e)
{
if (m->reconstructed_xref) {
// Avoid xref reconstruction infinite loops. This is getting very hard to reproduce because
// qpdf is throwing many fewer exceptions while parsing. Most situations are warnings now.
throw e;
}
m->reconstructed_xref = true;
// We may find more objects, which may contain dangling references.
m->fixed_dangling_refs = false;
warn(damagedPDF("", 0, "file is damaged"));
warn(e);
warn(damagedPDF("", 0, "Attempting to reconstruct cross-reference table"));
// Delete all references to type 1 (uncompressed) objects
std::set<QPDFObjGen> to_delete;
for (auto const& iter: m->xref_table) {
if (iter.second.getType() == 1) {
to_delete.insert(iter.first);
}
}
for (auto const& iter: to_delete) {
m->xref_table.erase(iter);
}
m->file->seek(0, SEEK_END);
qpdf_offset_t eof = m->file->tell();
m->file->seek(0, SEEK_SET);
qpdf_offset_t line_start = 0;
// Don't allow very long tokens here during recovery.
static size_t const MAX_LEN = 100;
while (m->file->tell() < eof) {
m->file->findAndSkipNextEOL();
qpdf_offset_t next_line_start = m->file->tell();
m->file->seek(line_start, SEEK_SET);
QPDFTokenizer::Token t1 = readToken(m->file, MAX_LEN);
qpdf_offset_t token_start = m->file->tell() - toO(t1.getValue().length());
if (token_start >= next_line_start) {
// don't process yet -- wait until we get to the line containing this token
} else if (t1.isInteger()) {
QPDFTokenizer::Token t2 = readToken(m->file, MAX_LEN);
if ((t2.isInteger()) && (readToken(m->file, MAX_LEN).isWord("obj"))) {
int obj = QUtil::string_to_int(t1.getValue().c_str());
int gen = QUtil::string_to_int(t2.getValue().c_str());
if (obj <= m->xref_table_max_id) {
insertReconstructedXrefEntry(obj, token_start, gen);
} else {
warn(damagedPDF(
"", 0, "ignoring object with impossibly large id " + std::to_string(obj)));
}
}
} else if (!m->trailer.isInitialized() && t1.isWord("trailer")) {
QPDFObjectHandle t = readTrailer();
if (!t.isDictionary()) {
// Oh well. It was worth a try.
} else {
setTrailer(t);
}
}
m->file->seek(next_line_start, SEEK_SET);
line_start = next_line_start;
}
m->deleted_objects.clear();
if (!m->trailer.isInitialized()) {
qpdf_offset_t max_offset{0};
// If there are any xref streams, take the last one to appear.
for (auto const& iter: m->xref_table) {
auto entry = iter.second;
if (entry.getType() != 1) {
continue;
}
auto oh = getObjectByObjGen(iter.first);
try {
if (!oh.isStreamOfType("/XRef")) {
continue;
}
} catch (std::exception&) {
continue;
}
auto offset = entry.getOffset();
if (offset > max_offset) {
max_offset = offset;
setTrailer(oh.getDict());
}
}
if (max_offset > 0) {
try {
read_xref(max_offset);
} catch (std::exception&) {
throw damagedPDF(
"", 0, "error decoding candidate xref stream while recovering damaged file");
}
QTC::TC("qpdf", "QPDF recover xref stream");
}
}
if (!m->trailer.isInitialized()) {
// We could check the last encountered object to see if it was an xref stream. If so, we
// could try to get the trailer from there. This may make it possible to recover files with
// bad startxref pointers even when they have object streams.
throw damagedPDF("", 0, "unable to find trailer dictionary while recovering damaged file");
}
// We could iterate through the objects looking for streams and try to find objects inside of
// them, but it's probably not worth the trouble. Acrobat can't recover files with any errors
// in an xref stream, and this would be a real long shot anyway. If we wanted to do anything
// that involved looking at stream contents, we'd also have to call initializeEncryption() here.
// It's safe to call it more than once.
}
void
QPDF::read_xref(qpdf_offset_t xref_offset)
{
std::map<int, int> free_table;
std::set<qpdf_offset_t> visited;
while (xref_offset) {
visited.insert(xref_offset);
char buf[7];
memset(buf, 0, sizeof(buf));
m->file->seek(xref_offset, SEEK_SET);
// Some files miss the mark a little with startxref. We could do a better job of searching
// in the neighborhood for something that looks like either an xref table or stream, but the
// simple heuristic of skipping whitespace can help with the xref table case and is harmless
// with the stream case.
bool done = false;
bool skipped_space = false;
while (!done) {
char ch;
if (1 == m->file->read(&ch, 1)) {
if (QUtil::is_space(ch)) {
skipped_space = true;
} else {
m->file->unreadCh(ch);
done = true;
}
} else {
QTC::TC("qpdf", "QPDF eof skipping spaces before xref", skipped_space ? 0 : 1);
done = true;
}
}
m->file->read(buf, sizeof(buf) - 1);
// The PDF spec says xref must be followed by a line terminator, but files exist in the wild
// where it is terminated by arbitrary whitespace.
if ((strncmp(buf, "xref", 4) == 0) && QUtil::is_space(buf[4])) {
if (skipped_space) {
QTC::TC("qpdf", "QPDF xref skipped space");
warn(damagedPDF("", 0, "extraneous whitespace seen before xref"));
}
QTC::TC(
"qpdf",
"QPDF xref space",
((buf[4] == '\n') ? 0
: (buf[4] == '\r') ? 1
: (buf[4] == ' ') ? 2
: 9999));
int skip = 4;
// buf is null-terminated, and QUtil::is_space('\0') is false, so this won't overrun.
while (QUtil::is_space(buf[skip])) {
++skip;
}
xref_offset = read_xrefTable(xref_offset + skip);
} else {
xref_offset = read_xrefStream(xref_offset);
}
if (visited.count(xref_offset) != 0) {
QTC::TC("qpdf", "QPDF xref loop");
throw damagedPDF("", 0, "loop detected following xref tables");
}
}
if (!m->trailer.isInitialized()) {
throw damagedPDF("", 0, "unable to find trailer while reading xref");
}
int size = m->trailer.getKey("/Size").getIntValueAsInt();
int max_obj = 0;
if (!m->xref_table.empty()) {
max_obj = m->xref_table.rbegin()->first.getObj();
}
if (!m->deleted_objects.empty()) {
max_obj = std::max(max_obj, *(m->deleted_objects.rbegin()));
}
if ((size < 1) || (size - 1 != max_obj)) {
QTC::TC("qpdf", "QPDF xref size mismatch");
warn(damagedPDF(
"",
0,
("reported number of objects (" + std::to_string(size) +
") is not one plus the highest object number (" + std::to_string(max_obj) + ")")));
}
// We no longer need the deleted_objects table, so go ahead and clear it out to make sure we
// never depend on its being set.
m->deleted_objects.clear();
// Make sure we keep only the highest generation for any object.
QPDFObjGen last_og{-1, 0};
for (auto const& item: m->xref_table) {
auto id = item.first.getObj();
if (id == last_og.getObj() && id > 0) {
removeObject(last_og);
}
last_og = item.first;
}
}
bool
QPDF::parse_xrefFirst(std::string const& line, int& obj, int& num, int& bytes)
{
// is_space and is_digit both return false on '\0', so this will not overrun the null-terminated
// buffer.
char const* p = line.c_str();
char const* start = line.c_str();
// Skip zero or more spaces
while (QUtil::is_space(*p)) {
++p;
}
// Require digit
if (!QUtil::is_digit(*p)) {
return false;
}
// Gather digits
std::string obj_str;
while (QUtil::is_digit(*p)) {
obj_str.append(1, *p++);
}
// Require space
if (!QUtil::is_space(*p)) {
return false;
}
// Skip spaces
while (QUtil::is_space(*p)) {
++p;
}
// Require digit
if (!QUtil::is_digit(*p)) {
return false;
}
// Gather digits
std::string num_str;
while (QUtil::is_digit(*p)) {
num_str.append(1, *p++);
}
// Skip any space including line terminators
while (QUtil::is_space(*p)) {
++p;
}
bytes = toI(p - start);
obj = QUtil::string_to_int(obj_str.c_str());
num = QUtil::string_to_int(num_str.c_str());
return true;
}
bool
QPDF::read_bad_xrefEntry(qpdf_offset_t& f1, int& f2, char& type)
{
// Reposition after initial read attempt and reread.
m->file->seek(m->file->getLastOffset(), SEEK_SET);
auto line = m->file->readLine(30);
// is_space and is_digit both return false on '\0', so this will not overrun the null-terminated
// buffer.
char const* p = line.data();
// Skip zero or more spaces. There aren't supposed to be any.
bool invalid = false;
while (QUtil::is_space(*p)) {
++p;
QTC::TC("qpdf", "QPDF ignore first space in xref entry");
invalid = true;
}
// Require digit
if (!QUtil::is_digit(*p)) {
return false;
}
// Gather digits
std::string f1_str;
while (QUtil::is_digit(*p)) {
f1_str.append(1, *p++);
}
// Require space
if (!QUtil::is_space(*p)) {
return false;
}
if (QUtil::is_space(*(p + 1))) {
QTC::TC("qpdf", "QPDF ignore first extra space in xref entry");
invalid = true;
}
// Skip spaces
while (QUtil::is_space(*p)) {
++p;
}
// Require digit
if (!QUtil::is_digit(*p)) {
return false;
}
// Gather digits
std::string f2_str;
while (QUtil::is_digit(*p)) {
f2_str.append(1, *p++);
}
// Require space
if (!QUtil::is_space(*p)) {
return false;
}
if (QUtil::is_space(*(p + 1))) {
QTC::TC("qpdf", "QPDF ignore second extra space in xref entry");
invalid = true;
}
// Skip spaces
while (QUtil::is_space(*p)) {
++p;
}
if ((*p == 'f') || (*p == 'n')) {
type = *p;
} else {
return false;
}
if ((f1_str.length() != 10) || (f2_str.length() != 5)) {
QTC::TC("qpdf", "QPDF ignore length error xref entry");
invalid = true;
}
if (invalid) {
warn(damagedPDF("xref table", "accepting invalid xref table entry"));
}
f1 = QUtil::string_to_ll(f1_str.c_str());
f2 = QUtil::string_to_int(f2_str.c_str());
return true;
}
// Optimistically read and parse xref entry. If entry is bad, call read_bad_xrefEntry and return
// result.
bool
QPDF::read_xrefEntry(qpdf_offset_t& f1, int& f2, char& type)
{
std::array<char, 21> line;
if (m->file->read(line.data(), 20) != 20) {
// C++20: [[unlikely]]
return false;
}
line[20] = '\0';
char const* p = line.data();
int f1_len = 0;
int f2_len = 0;
// is_space and is_digit both return false on '\0', so this will not overrun the null-terminated
// buffer.
// Gather f1 digits. NB No risk of overflow as 9'999'999'999 < max long long.
while (*p == '0') {
++f1_len;
++p;
}
while (QUtil::is_digit(*p) && f1_len++ < 10) {
f1 *= 10;
f1 += *p++ - '0';
}
// Require space
if (!QUtil::is_space(*p++)) {
// Entry doesn't start with space or digit.
// C++20: [[unlikely]]
return false;
}
// Gather digits. NB No risk of overflow as 99'999 < max int.
while (*p == '0') {
++f2_len;
++p;
}
while (QUtil::is_digit(*p) && f2_len++ < 5) {
f2 *= 10;
f2 += static_cast<int>(*p++ - '0');
}
if (QUtil::is_space(*p++) && (*p == 'f' || *p == 'n')) {
// C++20: [[likely]]
type = *p;
// No test for valid line[19].
if (*(++p) && *(++p) && (*p == '\n' || *p == '\r') && f1_len == 10 && f2_len == 5) {
// C++20: [[likely]]
return true;
}
}
return read_bad_xrefEntry(f1, f2, type);
}
// Read a single cross-reference table section and associated trailer.
qpdf_offset_t
QPDF::read_xrefTable(qpdf_offset_t xref_offset)
{
std::vector<QPDFObjGen> deleted_items;
m->file->seek(xref_offset, SEEK_SET);
std::string line;
while (true) {
line.assign(50, '\0');
m->file->read(line.data(), line.size());
int obj = 0;
int num = 0;
int bytes = 0;
if (!parse_xrefFirst(line, obj, num, bytes)) {
QTC::TC("qpdf", "QPDF invalid xref");
throw damagedPDF("xref table", "xref syntax invalid");
}
m->file->seek(m->file->getLastOffset() + bytes, SEEK_SET);
for (qpdf_offset_t i = obj; i - num < obj; ++i) {
if (i == 0) {
// This is needed by checkLinearization()
m->first_xref_item_offset = m->file->tell();
}
// For xref_table, these will always be small enough to be ints
qpdf_offset_t f1 = 0;
int f2 = 0;
char type = '\0';
if (!read_xrefEntry(f1, f2, type)) {
QTC::TC("qpdf", "QPDF invalid xref entry");
throw damagedPDF(
"xref table", "invalid xref entry (obj=" + std::to_string(i) + ")");
}
if (type == 'f') {
// Save deleted items until after we've checked the XRefStm, if any.
deleted_items.emplace_back(toI(i), f2);
} else {
insertXrefEntry(toI(i), 1, f1, f2);
}
}
qpdf_offset_t pos = m->file->tell();
if (readToken(m->file).isWord("trailer")) {
break;
} else {
m->file->seek(pos, SEEK_SET);
}
}
// Set offset to previous xref table if any
QPDFObjectHandle cur_trailer = readTrailer();
if (!cur_trailer.isDictionary()) {
QTC::TC("qpdf", "QPDF missing trailer");
throw damagedPDF("", "expected trailer dictionary");
}
if (!m->trailer.isInitialized()) {
setTrailer(cur_trailer);
if (!m->trailer.hasKey("/Size")) {
QTC::TC("qpdf", "QPDF trailer lacks size");
throw damagedPDF("trailer", "trailer dictionary lacks /Size key");
}
if (!m->trailer.getKey("/Size").isInteger()) {
QTC::TC("qpdf", "QPDF trailer size not integer");
throw damagedPDF("trailer", "/Size key in trailer dictionary is not an integer");
}
}
if (cur_trailer.hasKey("/XRefStm")) {
if (m->ignore_xref_streams) {
QTC::TC("qpdf", "QPDF ignoring XRefStm in trailer");
} else {
if (cur_trailer.getKey("/XRefStm").isInteger()) {
// Read the xref stream but disregard any return value -- we'll use our trailer's
// /Prev key instead of the xref stream's.
(void)read_xrefStream(cur_trailer.getKey("/XRefStm").getIntValue());
} else {
throw damagedPDF("xref stream", xref_offset, "invalid /XRefStm");
}
}
}
// Handle any deleted items now that we've read the /XRefStm.
for (auto const& og: deleted_items) {
insertFreeXrefEntry(og);
}
if (cur_trailer.hasKey("/Prev")) {
if (!cur_trailer.getKey("/Prev").isInteger()) {
QTC::TC("qpdf", "QPDF trailer prev not integer");
throw damagedPDF("trailer", "/Prev key in trailer dictionary is not an integer");
}
QTC::TC("qpdf", "QPDF prev key in trailer dictionary");
xref_offset = cur_trailer.getKey("/Prev").getIntValue();
} else {
xref_offset = 0;
}
return xref_offset;
}
// Read a single cross-reference stream.
qpdf_offset_t
QPDF::read_xrefStream(qpdf_offset_t xref_offset)
{
if (!m->ignore_xref_streams) {
QPDFObjGen x_og;
QPDFObjectHandle xref_obj;
try {
xref_obj =
readObjectAtOffset(false, xref_offset, "xref stream", QPDFObjGen(0, 0), x_og, true);
} catch (QPDFExc&) {
// ignore -- report error below
}
if (xref_obj.isStreamOfType("/XRef")) {
QTC::TC("qpdf", "QPDF found xref stream");
return processXRefStream(xref_offset, xref_obj);
}
}
QTC::TC("qpdf", "QPDF can't find xref");
throw damagedPDF("", xref_offset, "xref not found");
return 0; // unreachable
}
// Return the entry size of the xref stream and the processed W array.
std::pair<int, std::array<int, 3>>
QPDF::processXRefW(QPDFObjectHandle& dict, std::function<QPDFExc(std::string_view)> damaged)
{
auto W_obj = dict.getKey("/W");
if (!(W_obj.isArray() && (W_obj.getArrayNItems() >= 3) && W_obj.getArrayItem(0).isInteger() &&
W_obj.getArrayItem(1).isInteger() && W_obj.getArrayItem(2).isInteger())) {
throw damaged("Cross-reference stream does not have a proper /W key");
}
std::array<int, 3> W;
int entry_size = 0;
auto w_vector = W_obj.getArrayAsVector();
int max_bytes = sizeof(qpdf_offset_t);
for (size_t i = 0; i < 3; ++i) {
W[i] = w_vector[i].getIntValueAsInt();
if (W[i] > max_bytes) {
throw damaged("Cross-reference stream's /W contains impossibly large values");
}
if (W[i] < 0) {
throw damaged("Cross-reference stream's /W contains negative values");
}
entry_size += W[i];
}
if (entry_size == 0) {
throw damaged("Cross-reference stream's /W indicates entry size of 0");
}
return {entry_size, W};
}
// Validate Size key and return the maximum number of entries that the xref stream can contain.
int
QPDF::processXRefSize(
QPDFObjectHandle& dict, int entry_size, std::function<QPDFExc(std::string_view)> damaged)
{
// Number of entries is limited by the highest possible object id and stream size.
auto max_num_entries = std::numeric_limits<int>::max();
if (max_num_entries > (std::numeric_limits<qpdf_offset_t>::max() / entry_size)) {
max_num_entries = toI(std::numeric_limits<qpdf_offset_t>::max() / entry_size);
}
auto Size_obj = dict.getKey("/Size");
long long size;
if (!dict.getKey("/Size").getValueAsInt(size)) {
throw damaged("Cross-reference stream does not have a proper /Size key");
} else if (size < 0) {
throw damaged("Cross-reference stream has a negative /Size key");
} else if (size >= max_num_entries) {
throw damaged("Cross-reference stream has an impossibly large /Size key");
}
// We are not validating that Size <= (Size key of parent xref / trailer).
return max_num_entries;
}
// Return the number of entries of the xref stream and the processed Index array.
std::pair<int, std::vector<std::pair<int, int>>>
QPDF::processXRefIndex(
QPDFObjectHandle& dict, int max_num_entries, std::function<QPDFExc(std::string_view)> damaged)
{
auto size = dict.getKey("/Size").getIntValueAsInt();
auto Index_obj = dict.getKey("/Index");
if (Index_obj.isArray()) {
std::vector<std::pair<int, int>> indx;
int num_entries = 0;
auto index_vec = Index_obj.getArrayAsVector();
if ((index_vec.size() % 2) || index_vec.size() < 2) {
throw damaged("Cross-reference stream's /Index has an invalid number of values");
}
int i = 0;
long long first = 0;
for (auto& val: index_vec) {
if (val.isInteger()) {
if (i % 2) {
auto count = val.getIntValue();
// We are guarding against the possibility of num_entries * entry_size
// overflowing. We are not checking that entries are in ascending order as
// required by the spec, which probably should generate a warning. We are also
// not checking that for each subsection first object number + number of entries
// <= /Size. The spec requires us to ignore object number > /Size.
if (first > (max_num_entries - count) ||
count > (max_num_entries - num_entries)) {
throw damaged(
"Cross-reference stream claims to contain too many entries: " +
std::to_string(first) + " " + std::to_string(max_num_entries) + " " +
std::to_string(num_entries));
}
indx.emplace_back(static_cast<int>(first), static_cast<int>(count));
num_entries += static_cast<int>(count);
} else {
first = val.getIntValue();
if (first < 0) {
throw damaged(
"Cross-reference stream's /Index contains a negative object id");
} else if (first > max_num_entries) {
throw damaged("Cross-reference stream's /Index contains an impossibly "
"large object id");
}
}
} else {
throw damaged(
"Cross-reference stream's /Index's item " + std::to_string(i) +
" is not an integer");
}
i++;
}
QTC::TC("qpdf", "QPDF xref /Index is array", index_vec.size() == 2 ? 0 : 1);
return {num_entries, indx};
} else if (Index_obj.isNull()) {
QTC::TC("qpdf", "QPDF xref /Index is null");
return {size, {{0, size}}};
} else {
throw damaged("Cross-reference stream does not have a proper /Index key");
}
}
qpdf_offset_t
QPDF::processXRefStream(qpdf_offset_t xref_offset, QPDFObjectHandle& xref_obj)
{
auto damaged = [this, xref_offset](std::string_view msg) -> QPDFExc {
return damagedPDF("xref stream", xref_offset, msg.data());
};
auto dict = xref_obj.getDict();
auto [entry_size, W] = processXRefW(dict, damaged);
int max_num_entries = processXRefSize(dict, entry_size, damaged);
auto [num_entries, indx] = processXRefIndex(dict, max_num_entries, damaged);
std::shared_ptr<Buffer> bp = xref_obj.getStreamData(qpdf_dl_specialized);
size_t actual_size = bp->getSize();
auto expected_size = toS(entry_size) * toS(num_entries);
if (expected_size != actual_size) {
QPDFExc x = damaged(
"Cross-reference stream data has the wrong size; expected = " +
std::to_string(expected_size) + "; actual = " + std::to_string(actual_size));
if (expected_size > actual_size) {
throw x;
} else {
warn(x);
}
}
bool saw_first_compressed_object = false;
// Actual size vs. expected size check above ensures that we will not overflow any buffers here.
// We know that entry_size * num_entries is less or equal to the size of the buffer.
auto p = bp->getBuffer();
for (auto [obj, sec_entries]: indx) {
// Process a subsection.
for (int i = 0; i < sec_entries; ++i) {
// Read this entry
std::array<qpdf_offset_t, 3> fields{};
if (W[0] == 0) {
QTC::TC("qpdf", "QPDF default for xref stream field 0");
fields[0] = 1;
}
for (size_t j = 0; j < 3; ++j) {
for (int k = 0; k < W[j]; ++k) {
fields[j] <<= 8;
fields[j] |= *p++;
}
}
// Get the generation number. The generation number is 0 unless this is an uncompressed
// object record, in which case the generation number appears as the third field.
if (saw_first_compressed_object) {
if (fields[0] != 2) {
m->uncompressed_after_compressed = true;
}
} else if (fields[0] == 2) {
saw_first_compressed_object = true;
}
if (obj == 0) {
// This is needed by checkLinearization()
m->first_xref_item_offset = xref_offset;
} else if (fields[0] == 0) {
// Ignore fields[2], which we don't care about in this case. This works around the
// issue of some PDF files that put invalid values, like -1, here for deleted
// objects.
insertFreeXrefEntry(QPDFObjGen(obj, 0));
} else {
insertXrefEntry(obj, toI(fields[0]), fields[1], toI(fields[2]));
}
++obj;
}
}
if (!m->trailer.isInitialized()) {
setTrailer(dict);
}
if (dict.hasKey("/Prev")) {
if (!dict.getKey("/Prev").isInteger()) {
throw damagedPDF(
"xref stream", "/Prev key in xref stream dictionary is not an integer");
}
QTC::TC("qpdf", "QPDF prev key in xref stream dictionary");
return dict.getKey("/Prev").getIntValue();
} else {
return 0;
}
}
void
QPDF::insertXrefEntry(int obj, int f0, qpdf_offset_t f1, int f2)
{
// Populate the xref table in such a way that the first reference to an object that we see,
// which is the one in the latest xref table in which it appears, is the one that gets stored.
// This works because we are reading more recent appends before older ones.
// If there is already an entry for this object and generation in the table, it means that a
// later xref table has registered this object. Disregard this one.
if (obj > m->xref_table_max_id) {
// ignore impossibly large object ids or object ids > Size.
return;
}
if (m->deleted_objects.count(obj)) {
QTC::TC("qpdf", "QPDF xref deleted object");
return;
}
if (f0 == 2 && static_cast<int>(f1) == obj) {
warn(damagedPDF("xref stream", "self-referential object stream " + std::to_string(obj)));
return;
}
auto [iter, created] = m->xref_table.try_emplace(QPDFObjGen(obj, (f0 == 2 ? 0 : f2)));
if (!created) {
QTC::TC("qpdf", "QPDF xref reused object");
return;
}
switch (f0) {
case 1:
// f2 is generation
QTC::TC("qpdf", "QPDF xref gen > 0", ((f2 > 0) ? 1 : 0));
iter->second = QPDFXRefEntry(f1);
break;
case 2:
iter->second = QPDFXRefEntry(toI(f1), f2);
break;
default:
throw damagedPDF("xref stream", "unknown xref stream entry type " + std::to_string(f0));
break;
}
}
void
QPDF::insertFreeXrefEntry(QPDFObjGen og)
{
if (!m->xref_table.count(og)) {
m->deleted_objects.insert(og.getObj());
}
}
// Replace uncompressed object. This is used in xref recovery mode, which reads the file from
// beginning to end.
void
QPDF::insertReconstructedXrefEntry(int obj, qpdf_offset_t f1, int f2)
{
if (!(obj > 0 && obj <= m->xref_table_max_id && 0 <= f2 && f2 < 65535)) {
QTC::TC("qpdf", "QPDF xref overwrite invalid objgen");
return;
}
QPDFObjGen og(obj, f2);
if (!m->deleted_objects.count(obj)) {
// deleted_objects stores the uncompressed objects removed from the xref table at the start
// of recovery.
QTC::TC("qpdf", "QPDF xref overwrite object");
m->xref_table[QPDFObjGen(obj, f2)] = QPDFXRefEntry(f1);
}
}
void
QPDF::showXRefTable()
{
auto& cout = *m->log->getInfo();
for (auto const& iter: m->xref_table) {
QPDFObjGen const& og = iter.first;
QPDFXRefEntry const& entry = iter.second;
cout << og.unparse('/') << ": ";
switch (entry.getType()) {
case 1:
cout << "uncompressed; offset = " << entry.getOffset();
break;
case 2:
*m->log->getInfo() << "compressed; stream = " << entry.getObjStreamNumber()
<< ", index = " << entry.getObjStreamIndex();
break;
default:
throw std::logic_error("unknown cross-reference table type while"
" showing xref_table");
break;
}
m->log->info("\n");
}
}
// Resolve all objects in the xref table. If this triggers a xref table reconstruction abort and
// return false. Otherwise return true.
bool
QPDF::resolveXRefTable()
{
bool may_change = !m->reconstructed_xref;
for (auto& iter: m->xref_table) {
if (isUnresolved(iter.first)) {
resolve(iter.first);
if (may_change && m->reconstructed_xref) {
return false;
}
}
}
return true;
}
// Ensure all objects in the pdf file, including those in indirect references, appear in the object
// cache.
void
QPDF::fixDanglingReferences(bool force)
{
if (m->fixed_dangling_refs) {
return;
}
if (!resolveXRefTable()) {
QTC::TC("qpdf", "QPDF fix dangling triggered xref reconstruction");
resolveXRefTable();
}
m->fixed_dangling_refs = true;
}
size_t
QPDF::getObjectCount()
{
// This method returns the next available indirect object number. makeIndirectObject uses it for
// this purpose. After fixDanglingReferences is called, all objects in the xref table will also
// be in obj_cache.
fixDanglingReferences();
QPDFObjGen og;
if (!m->obj_cache.empty()) {
og = (*(m->obj_cache.rbegin())).first;
}
return toS(og.getObj());
}
std::vector<QPDFObjectHandle>
QPDF::getAllObjects()
{
// After fixDanglingReferences is called, all objects are in the object cache.
fixDanglingReferences();
std::vector<QPDFObjectHandle> result;
for (auto const& iter: m->obj_cache) {
result.push_back(newIndirect(iter.first, iter.second.object));
}
return result;
}
void
QPDF::setLastObjectDescription(std::string const& description, QPDFObjGen const& og)
{
m->last_object_description.clear();
if (!description.empty()) {
m->last_object_description += description;
if (og.isIndirect()) {
m->last_object_description += ": ";
}
}
if (og.isIndirect()) {
m->last_object_description += "object " + og.unparse(' ');
}
}
QPDFObjectHandle
QPDF::readTrailer()
{
qpdf_offset_t offset = m->file->tell();
bool empty = false;
auto object = QPDFParser(m->file, "trailer", m->tokenizer, nullptr, this).parse(empty, false);
if (empty) {
// Nothing in the PDF spec appears to allow empty objects, but they have been encountered in
// actual PDF files and Adobe Reader appears to ignore them.
warn(damagedPDF("trailer", "empty object treated as null"));
} else if (object.isDictionary() && readToken(m->file).isWord("stream")) {
warn(damagedPDF("trailer", m->file->tell(), "stream keyword found in trailer"));
}
// Override last_offset so that it points to the beginning of the object we just read
m->file->setLastOffset(offset);
return object;
}
QPDFObjectHandle
QPDF::readObject(std::string const& description, QPDFObjGen og)
{
setLastObjectDescription(description, og);
qpdf_offset_t offset = m->file->tell();
bool empty = false;
StringDecrypter decrypter{this, og};
StringDecrypter* decrypter_ptr = m->encp->encrypted ? &decrypter : nullptr;
auto object = QPDFParser(m->file, m->last_object_description, m->tokenizer, decrypter_ptr, this)
.parse(empty, false);
if (empty) {
// Nothing in the PDF spec appears to allow empty objects, but they have been encountered in
// actual PDF files and Adobe Reader appears to ignore them.
warn(damagedPDF(m->file, m->file->getLastOffset(), "empty object treated as null"));
return object;
}
auto token = readToken(m->file);
if (object.isDictionary() && token.isWord("stream")) {
readStream(object, og, offset);
token = readToken(m->file);
}
if (!token.isWord("endobj")) {
QTC::TC("qpdf", "QPDF err expected endobj");
warn(damagedPDF("expected endobj"));
}
return object;
}
// After reading stream dictionary and stream keyword, read rest of stream.
void
QPDF::readStream(QPDFObjectHandle& object, QPDFObjGen og, qpdf_offset_t offset)
{
validateStreamLineEnd(object, og, offset);
// Must get offset before accessing any additional objects since resolving a previously
// unresolved indirect object will change file position.
qpdf_offset_t stream_offset = m->file->tell();
size_t length = 0;
try {
auto length_obj = object.getKey("/Length");
if (!length_obj.isInteger()) {
if (length_obj.isNull()) {
QTC::TC("qpdf", "QPDF stream without length");
throw damagedPDF(offset, "stream dictionary lacks /Length key");
}
QTC::TC("qpdf", "QPDF stream length not integer");
throw damagedPDF(offset, "/Length key in stream dictionary is not an integer");
}
length = toS(length_obj.getUIntValue());
// Seek in two steps to avoid potential integer overflow
m->file->seek(stream_offset, SEEK_SET);
m->file->seek(toO(length), SEEK_CUR);
if (!readToken(m->file).isWord("endstream")) {
QTC::TC("qpdf", "QPDF missing endstream");
throw damagedPDF("expected endstream");
}
} catch (QPDFExc& e) {
if (m->attempt_recovery) {
warn(e);
length = recoverStreamLength(m->file, og, stream_offset);
} else {
throw;
}
}
object = newIndirect(og, QPDF_Stream::create(this, og, object, stream_offset, length));
}
void
QPDF::validateStreamLineEnd(QPDFObjectHandle& object, QPDFObjGen og, qpdf_offset_t offset)
{
// The PDF specification states that the word "stream" should be followed by either a carriage
// return and a newline or by a newline alone. It specifically disallowed following it by a
// carriage return alone since, in that case, there would be no way to tell whether the NL in a
// CR NL sequence was part of the stream data. However, some readers, including Adobe reader,
// accept a carriage return by itself when followed by a non-newline character, so that's what
// we do here. We have also seen files that have extraneous whitespace between the stream
// keyword and the newline.
while (true) {
char ch;
if (m->file->read(&ch, 1) == 0) {
// A premature EOF here will result in some other problem that will get reported at
// another time.
return;
}
if (ch == '\n') {
// ready to read stream data
QTC::TC("qpdf", "QPDF stream with NL only");
return;
}
if (ch == '\r') {
// Read another character
if (m->file->read(&ch, 1) != 0) {
if (ch == '\n') {
// Ready to read stream data
QTC::TC("qpdf", "QPDF stream with CRNL");
} else {
// Treat the \r by itself as the whitespace after endstream and start reading
// stream data in spite of not having seen a newline.
QTC::TC("qpdf", "QPDF stream with CR only");
m->file->unreadCh(ch);
warn(damagedPDF(
m->file->tell(), "stream keyword followed by carriage return only"));
}
}
return;
}
if (!QUtil::is_space(ch)) {
QTC::TC("qpdf", "QPDF stream without newline");
m->file->unreadCh(ch);
warn(damagedPDF(
m->file->tell(), "stream keyword not followed by proper line terminator"));
return;
}
warn(damagedPDF(m->file->tell(), "stream keyword followed by extraneous whitespace"));
}
}
QPDFObjectHandle
QPDF::readObjectInStream(std::shared_ptr<InputSource>& input, int obj)
{
m->last_object_description.erase(7); // last_object_description starts with "object "
m->last_object_description += std::to_string(obj);
m->last_object_description += " 0";
bool empty = false;
auto object = QPDFParser(input, m->last_object_description, m->tokenizer, nullptr, this)
.parse(empty, false);
if (empty) {
// Nothing in the PDF spec appears to allow empty objects, but they have been encountered in
// actual PDF files and Adobe Reader appears to ignore them.
warn(damagedPDF(input, input->getLastOffset(), "empty object treated as null"));
}
return object;
}
bool
QPDF::findEndstream()
{
// Find endstream or endobj. Position the input at that token.
auto t = readToken(m->file, 20);
if (t.isWord("endobj") || t.isWord("endstream")) {
m->file->seek(m->file->getLastOffset(), SEEK_SET);
return true;
}
return false;
}
size_t
QPDF::recoverStreamLength(
std::shared_ptr<InputSource> input, QPDFObjGen const& og, qpdf_offset_t stream_offset)
{
// Try to reconstruct stream length by looking for endstream or endobj
warn(damagedPDF(input, stream_offset, "attempting to recover stream length"));
PatternFinder ef(*this, &QPDF::findEndstream);
size_t length = 0;
if (m->file->findFirst("end", stream_offset, 0, ef)) {
length = toS(m->file->tell() - stream_offset);
// Reread endstream but, if it was endobj, don't skip that.
QPDFTokenizer::Token t = readToken(m->file);
if (t.getValue() == "endobj") {
m->file->seek(m->file->getLastOffset(), SEEK_SET);
}
}
if (length) {
qpdf_offset_t this_obj_offset = 0;
QPDFObjGen this_og;
// Make sure this is inside this object
for (auto const& iter: m->xref_table) {
QPDFXRefEntry const& entry = iter.second;
if (entry.getType() == 1) {
qpdf_offset_t obj_offset = entry.getOffset();
if ((obj_offset > stream_offset) &&
((this_obj_offset == 0) || (this_obj_offset > obj_offset))) {
this_obj_offset = obj_offset;
this_og = iter.first;
}
}
}
if (this_obj_offset && (this_og == og)) {
// Well, we found endstream\nendobj within the space allowed for this object, so we're
// probably in good shape.
} else {
QTC::TC("qpdf", "QPDF found wrong endstream in recovery");
}
}
if (length == 0) {
warn(damagedPDF(
input, stream_offset, "unable to recover stream data; treating stream as empty"));
} else {
warn(
damagedPDF(input, stream_offset, "recovered stream length: " + std::to_string(length)));
}
QTC::TC("qpdf", "QPDF recovered stream length");
return length;
}
QPDFTokenizer::Token
QPDF::readToken(std::shared_ptr<InputSource> input, size_t max_len)
{
return m->tokenizer.readToken(input, m->last_object_description, true, max_len);
}
QPDFObjectHandle
QPDF::readObjectAtOffset(
bool try_recovery,
qpdf_offset_t offset,
std::string const& description,
QPDFObjGen exp_og,
QPDFObjGen& og,
bool skip_cache_if_in_xref)
{
bool check_og = true;
if (exp_og.getObj() == 0) {
// This method uses an expect object ID of 0 to indicate that we don't know or don't care
// what the actual object ID is at this offset. This is true when we read the xref stream
// and linearization hint streams. In this case, we don't verify the expect object
// ID/generation against what was read from the file. There is also no reason to attempt
// xref recovery if we get a failure in this case since the read attempt was not triggered
// by an xref lookup.
check_og = false;
try_recovery = false;
}
setLastObjectDescription(description, exp_og);
if (!m->attempt_recovery) {
try_recovery = false;
}
// Special case: if offset is 0, just return null. Some PDF writers, in particular
// "Mac OS X 10.7.5 Quartz PDFContext", may store deleted objects in the xref table as
// "0000000000 00000 n", which is not correct, but it won't hurt anything for us to ignore
// these.
if (offset == 0) {
QTC::TC("qpdf", "QPDF bogus 0 offset", 0);
warn(damagedPDF(0, "object has offset 0"));
return QPDFObjectHandle::newNull();
}
m->file->seek(offset, SEEK_SET);
QPDFTokenizer::Token tobjid = readToken(m->file);
QPDFTokenizer::Token tgen = readToken(m->file);
QPDFTokenizer::Token tobj = readToken(m->file);
bool objidok = tobjid.isInteger();
bool genok = tgen.isInteger();
bool objok = tobj.isWord("obj");
QTC::TC("qpdf", "QPDF check objid", objidok ? 1 : 0);
QTC::TC("qpdf", "QPDF check generation", genok ? 1 : 0);
QTC::TC("qpdf", "QPDF check obj", objok ? 1 : 0);
try {
if (!(objidok && genok && objok)) {
QTC::TC("qpdf", "QPDF expected n n obj");
throw damagedPDF(offset, "expected n n obj");
}
int objid = QUtil::string_to_int(tobjid.getValue().c_str());
int generation = QUtil::string_to_int(tgen.getValue().c_str());
og = QPDFObjGen(objid, generation);
if (objid == 0) {
QTC::TC("qpdf", "QPDF object id 0");
throw damagedPDF(offset, "object with ID 0");
}
if (check_og && (exp_og != og)) {
QTC::TC("qpdf", "QPDF err wrong objid/generation");
QPDFExc e = damagedPDF(offset, "expected " + exp_og.unparse(' ') + " obj");
if (try_recovery) {
// Will be retried below
throw e;
} else {
// We can try reading the object anyway even if the ID doesn't match.
warn(e);
}
}
} catch (QPDFExc& e) {
if (try_recovery) {
// Try again after reconstructing xref table
reconstruct_xref(e);
if (m->xref_table.count(exp_og) && (m->xref_table[exp_og].getType() == 1)) {
qpdf_offset_t new_offset = m->xref_table[exp_og].getOffset();
QPDFObjectHandle result =
readObjectAtOffset(false, new_offset, description, exp_og, og, false);
QTC::TC("qpdf", "QPDF recovered in readObjectAtOffset");
return result;
} else {
QTC::TC("qpdf", "QPDF object gone after xref reconstruction");
warn(damagedPDF(
"",
0,
("object " + exp_og.unparse(' ') +
" not found in file after regenerating cross reference "
"table")));
return QPDFObjectHandle::newNull();
}
} else {
throw;
}
}
QPDFObjectHandle oh = readObject(description, og);
if (isUnresolved(og)) {
// Store the object in the cache here so it gets cached whether we first know the offset or
// whether we first know the object ID and generation (in which we case we would get here
// through resolve).
// Determine the end offset of this object before and after white space. We use these
// numbers to validate linearization hint tables. Offsets and lengths of objects may imply
// the end of an object to be anywhere between these values.
qpdf_offset_t end_before_space = m->file->tell();
// skip over spaces
while (true) {
char ch;
if (m->file->read(&ch, 1)) {
if (!isspace(static_cast<unsigned char>(ch))) {
m->file->seek(-1, SEEK_CUR);
break;
}
} else {
throw damagedPDF(m->file->tell(), "EOF after endobj");
}
}
qpdf_offset_t end_after_space = m->file->tell();
if (skip_cache_if_in_xref && m->xref_table.count(og)) {
// Ordinarily, an object gets read here when resolved through xref table or stream. In
// the special case of the xref stream and linearization hint tables, the offset comes
// from another source. For the specific case of xref streams, the xref stream is read
// and loaded into the object cache very early in parsing. Ordinarily, when a file is
// updated by appending, items inserted into the xref table in later updates take
// precedence over earlier items. In the special case of reusing the object number
// previously used as the xref stream, we have the following order of events:
//
// * reused object gets loaded into the xref table
// * old object is read here while reading xref streams
// * original xref entry is ignored (since already in xref table)
//
// It is the second step that causes a problem. Even though the xref table is correct in
// this case, the old object is already in the cache and so effectively prevails over
// the reused object. To work around this issue, we have a special case for the xref
// stream (via the skip_cache_if_in_xref): if the object is already in the xref stream,
// don't cache what we read here.
//
// It is likely that the same bug may exist for linearization hint tables, but the
// existing code uses end_before_space and end_after_space from the cache, so fixing
// that would require more significant rework. The chances of a linearization hint
// stream being reused seems smaller because the xref stream is probably the highest
// object in the file and the linearization hint stream would be some random place in
// the middle, so I'm leaving that bug unfixed for now. If the bug were to be fixed, we
// could use !check_og in place of skip_cache_if_in_xref.
QTC::TC("qpdf", "QPDF skipping cache for known unchecked object");
} else {
updateCache(og, oh.getObj(), end_before_space, end_after_space);
}
}
return oh;
}
void
QPDF::resolve(QPDFObjGen og)
{
if (!isUnresolved(og)) {
return;
}
if (m->resolving.count(og)) {
// This can happen if an object references itself directly or indirectly in some key that
// has to be resolved during object parsing, such as stream length.
QTC::TC("qpdf", "QPDF recursion loop in resolve");
warn(damagedPDF("", "loop detected resolving object " + og.unparse(' ')));
updateCache(og, QPDF_Null::create(), -1, -1);
return;
}
ResolveRecorder rr(this, og);
if (m->xref_table.count(og) != 0) {
QPDFXRefEntry const& entry = m->xref_table[og];
try {
switch (entry.getType()) {
case 1:
{
qpdf_offset_t offset = entry.getOffset();
// Object stored in cache by readObjectAtOffset
QPDFObjGen a_og;
QPDFObjectHandle oh = readObjectAtOffset(true, offset, "", og, a_og, false);
}
break;
case 2:
resolveObjectsInStream(entry.getObjStreamNumber());
break;
default:
throw damagedPDF(
"", 0, ("object " + og.unparse('/') + " has unexpected xref entry type"));
}
} catch (QPDFExc& e) {
warn(e);
} catch (std::exception& e) {
warn(damagedPDF(
"", 0, ("object " + og.unparse('/') + ": error reading object: " + e.what())));
}
}
if (isUnresolved(og)) {
// PDF spec says unknown objects resolve to the null object.
QTC::TC("qpdf", "QPDF resolve failure to null");
updateCache(og, QPDF_Null::create(), -1, -1);
}
auto result(m->obj_cache[og].object);
result->setDefaultDescription(this, og);
}
void
QPDF::resolveObjectsInStream(int obj_stream_number)
{
if (m->resolved_object_streams.count(obj_stream_number)) {
return;
}
m->resolved_object_streams.insert(obj_stream_number);
// Force resolution of object stream
QPDFObjectHandle obj_stream = getObjectByID(obj_stream_number, 0);
if (!obj_stream.isStream()) {
throw damagedPDF(
"supposed object stream " + std::to_string(obj_stream_number) + " is not a stream");
}
// For linearization data in the object, use the data from the object stream for the objects in
// the stream.
QPDFObjGen stream_og(obj_stream_number, 0);
qpdf_offset_t end_before_space = m->obj_cache[stream_og].end_before_space;
qpdf_offset_t end_after_space = m->obj_cache[stream_og].end_after_space;
QPDFObjectHandle dict = obj_stream.getDict();
if (!dict.isDictionaryOfType("/ObjStm")) {
QTC::TC("qpdf", "QPDF ERR object stream with wrong type");
warn(damagedPDF(
"supposed object stream " + std::to_string(obj_stream_number) + " has wrong type"));
}
if (!(dict.getKey("/N").isInteger() && dict.getKey("/First").isInteger())) {
throw damagedPDF(
("object stream " + std::to_string(obj_stream_number) + " has incorrect keys"));
}
int n = dict.getKey("/N").getIntValueAsInt();
int first = dict.getKey("/First").getIntValueAsInt();
std::map<int, int> offsets;
std::shared_ptr<Buffer> bp = obj_stream.getStreamData(qpdf_dl_specialized);
auto input = std::shared_ptr<InputSource>(
// line-break
new BufferInputSource(
(m->file->getName() + " object stream " + std::to_string(obj_stream_number)),
bp.get()));
for (int i = 0; i < n; ++i) {
QPDFTokenizer::Token tnum = readToken(input);
QPDFTokenizer::Token toffset = readToken(input);
if (!(tnum.isInteger() && toffset.isInteger())) {
throw damagedPDF(
input,
m->last_object_description,
input->getLastOffset(),
"expected integer in object stream header");
}
int num = QUtil::string_to_int(tnum.getValue().c_str());
long long offset = QUtil::string_to_int(toffset.getValue().c_str());
if (num > m->xref_table_max_id) {
continue;
}
if (num == obj_stream_number) {
warn(damagedPDF(
input,
m->last_object_description,
input->getLastOffset(),
"object stream claims to contain itself"));
continue;
}
offsets[num] = toI(offset + first);
}
// To avoid having to read the object stream multiple times, store all objects that would be
// found here in the cache. Remember that some objects stored here might have been overridden
// by new objects appended to the file, so it is necessary to recheck the xref table and only
// cache what would actually be resolved here.
m->last_object_description.clear();
m->last_object_description += "object ";
for (auto const& iter: offsets) {
QPDFObjGen og(iter.first, 0);
auto entry = m->xref_table.find(og);
if (entry != m->xref_table.end() && entry->second.getType() == 2 &&
entry->second.getObjStreamNumber() == obj_stream_number) {
int offset = iter.second;
input->seek(offset, SEEK_SET);
QPDFObjectHandle oh = readObjectInStream(input, iter.first);
updateCache(og, oh.getObj(), end_before_space, end_after_space);
} else {
QTC::TC("qpdf", "QPDF not caching overridden objstm object");
}
}
}
QPDFObjectHandle
QPDF::newIndirect(QPDFObjGen const& og, std::shared_ptr<QPDFObject> const& obj)
{
obj->setDefaultDescription(this, og);
return {obj};
}
void
QPDF::updateCache(
QPDFObjGen const& og,
std::shared_ptr<QPDFObject> const& object,
qpdf_offset_t end_before_space,
qpdf_offset_t end_after_space)
{
object->setObjGen(this, og);
if (isCached(og)) {
auto& cache = m->obj_cache[og];
cache.object->assign(object);
cache.end_before_space = end_before_space;
cache.end_after_space = end_after_space;
} else {
m->obj_cache[og] = ObjCache(object, end_before_space, end_after_space);
}
}
bool
QPDF::isCached(QPDFObjGen const& og)
{
return m->obj_cache.count(og) != 0;
}
bool
QPDF::isUnresolved(QPDFObjGen const& og)
{
return !isCached(og) || m->obj_cache[og].object->isUnresolved();
}
QPDFObjGen
QPDF::nextObjGen()
{
int max_objid = toI(getObjectCount());
if (max_objid == std::numeric_limits<int>::max()) {
throw std::range_error("max object id is too high to create new objects");
}
return QPDFObjGen(max_objid + 1, 0);
}
QPDFObjectHandle
QPDF::makeIndirectFromQPDFObject(std::shared_ptr<QPDFObject> const& obj)
{
QPDFObjGen next{nextObjGen()};
m->obj_cache[next] = ObjCache(obj, -1, -1);
return newIndirect(next, m->obj_cache[next].object);
}
QPDFObjectHandle
QPDF::makeIndirectObject(QPDFObjectHandle oh)
{
if (!oh.isInitialized()) {
throw std::logic_error("attempted to make an uninitialized QPDFObjectHandle indirect");
}
return makeIndirectFromQPDFObject(oh.getObj());
}
QPDFObjectHandle
QPDF::newReserved()
{
return makeIndirectFromQPDFObject(QPDF_Reserved::create());
}
QPDFObjectHandle
QPDF::newIndirectNull()
{
return makeIndirectFromQPDFObject(QPDF_Null::create());
}
QPDFObjectHandle
QPDF::newStream()
{
return makeIndirectFromQPDFObject(
QPDF_Stream::create(this, nextObjGen(), QPDFObjectHandle::newDictionary(), 0, 0));
}
QPDFObjectHandle
QPDF::newStream(std::shared_ptr<Buffer> data)
{
auto result = newStream();
result.replaceStreamData(data, QPDFObjectHandle::newNull(), QPDFObjectHandle::newNull());
return result;
}
QPDFObjectHandle
QPDF::newStream(std::string const& data)
{
auto result = newStream();
result.replaceStreamData(data, QPDFObjectHandle::newNull(), QPDFObjectHandle::newNull());
return result;
}
QPDFObjectHandle
QPDF::reserveObjectIfNotExists(QPDFObjGen const& og)
{
if (!isCached(og) && m->xref_table.count(og) == 0) {
updateCache(og, QPDF_Reserved::create(), -1, -1);
return newIndirect(og, m->obj_cache[og].object);
} else {
return getObject(og);
}
}
QPDFObjectHandle
QPDF::reserveStream(QPDFObjGen const& og)
{
return {QPDF_Stream::create(this, og, QPDFObjectHandle::newDictionary(), 0, 0)};
}
QPDFObjectHandle
QPDF::getObject(QPDFObjGen const& og)
{
// This method is called by the parser and therefore must not resolve any objects.
if (!isCached(og)) {
m->obj_cache[og] = ObjCache(QPDF_Unresolved::create(this, og), -1, -1);
}
return newIndirect(og, m->obj_cache[og].object);
}
QPDFObjectHandle
QPDF::getObject(int objid, int generation)
{
return getObject(QPDFObjGen(objid, generation));
}
QPDFObjectHandle
QPDF::getObjectByObjGen(QPDFObjGen const& og)
{
return getObject(og);
}
QPDFObjectHandle
QPDF::getObjectByID(int objid, int generation)
{
return getObject(QPDFObjGen(objid, generation));
}
void
QPDF::replaceObject(int objid, int generation, QPDFObjectHandle oh)
{
replaceObject(QPDFObjGen(objid, generation), oh);
}
void
QPDF::replaceObject(QPDFObjGen const& og, QPDFObjectHandle oh)
{
if (oh.isIndirect() || !oh.isInitialized()) {
QTC::TC("qpdf", "QPDF replaceObject called with indirect object");
throw std::logic_error("QPDF::replaceObject called with indirect object handle");
}
updateCache(og, oh.getObj(), -1, -1);
}
void
QPDF::removeObject(QPDFObjGen og)
{
m->xref_table.erase(og);
if (auto cached = m->obj_cache.find(og); cached != m->obj_cache.end()) {
// Take care of any object handles that may be floating around.
cached->second.object->assign(QPDF_Null::create());
cached->second.object->setObjGen(nullptr, QPDFObjGen());
m->obj_cache.erase(cached);
}
}
void
QPDF::replaceReserved(QPDFObjectHandle reserved, QPDFObjectHandle replacement)
{
QTC::TC("qpdf", "QPDF replaceReserved");
auto tc = reserved.getTypeCode();
if (!(tc == ::ot_reserved || tc == ::ot_null)) {
throw std::logic_error("replaceReserved called with non-reserved object");
}
replaceObject(reserved.getObjGen(), replacement);
}
QPDFObjectHandle
QPDF::copyForeignObject(QPDFObjectHandle foreign)
{
// Here's an explanation of what's going on here.
//
// A QPDFObjectHandle that is an indirect object has an owning QPDF. The object ID and
// generation refers to an object in the owning QPDF. When we copy the QPDFObjectHandle from a
// foreign QPDF into the local QPDF, we have to replace all indirect object references with
// references to the corresponding object in the local file.
//
// To do this, we maintain mappings from foreign object IDs to local object IDs for each foreign
// QPDF that we are copying from. The mapping is stored in an ObjCopier, which contains a
// mapping from the foreign ObjGen to the local QPDFObjectHandle.
//
// To copy, we do a deep traversal of the foreign object with loop detection to discover all
// indirect objects that are encountered, stopping at page boundaries. Whenever we encounter an
// indirect object, we check to see if we have already created a local copy of it. If not, we
// allocate a "reserved" object (or, for a stream, just a new stream) and store in the map the
// mapping from the foreign object ID to the new object. While we
// do this, we keep a list of objects to copy.
//
// Once we are done with the traversal, we copy all the objects that we need to copy. However,
// the copies will contain indirect object IDs that refer to objects in the foreign file. We
// need to replace them with references to objects in the local file. This is what
// replaceForeignIndirectObjects does. Once we have created a copy of the foreign object with
// all the indirect references replaced with new ones in the local context, we can replace the
// local reserved object with the copy. This mechanism allows us to copy objects with circular
// references in any order.
// For streams, rather than copying the objects, we set up the stream data to pull from the
// original stream by using a stream data provider. This is done in a manner that doesn't
// require the original QPDF object but may require the original source of the stream data with
// special handling for immediate_copy_from. This logic is also in
// replaceForeignIndirectObjects.
// Note that we explicitly allow use of copyForeignObject on page objects. It is a documented
// use case to copy pages this way if the intention is to not update the pages tree.
if (!foreign.isIndirect()) {
QTC::TC("qpdf", "QPDF copyForeign direct");
throw std::logic_error("QPDF::copyForeign called with direct object handle");
}
QPDF& other = foreign.getQPDF();
if (&other == this) {
QTC::TC("qpdf", "QPDF copyForeign not foreign");
throw std::logic_error("QPDF::copyForeign called with object from this QPDF");
}
ObjCopier& obj_copier = m->object_copiers[other.m->unique_id];
if (!obj_copier.visiting.empty()) {
throw std::logic_error("obj_copier.visiting is not empty"
" at the beginning of copyForeignObject");
}
// Make sure we have an object in this file for every referenced object in the old file.
// obj_copier.object_map maps foreign QPDFObjGen to local objects. For everything new that we
// have to copy, the local object will be a reservation, unless it is a stream, in which case
// the local object will already be a stream.
reserveObjects(foreign, obj_copier, true);
if (!obj_copier.visiting.empty()) {
throw std::logic_error("obj_copier.visiting is not empty after reserving objects");
}
// Copy any new objects and replace the reservations.
for (auto& to_copy: obj_copier.to_copy) {
QPDFObjectHandle copy = replaceForeignIndirectObjects(to_copy, obj_copier, true);
if (!to_copy.isStream()) {
QPDFObjGen og(to_copy.getObjGen());
replaceReserved(obj_copier.object_map[og], copy);
}
}
obj_copier.to_copy.clear();
auto og = foreign.getObjGen();
if (!obj_copier.object_map.count(og)) {
warn(damagedPDF("unexpected reference to /Pages object while copying foreign object; "
"replacing with null"));
return QPDFObjectHandle::newNull();
}
return obj_copier.object_map[foreign.getObjGen()];
}
void
QPDF::reserveObjects(QPDFObjectHandle foreign, ObjCopier& obj_copier, bool top)
{
auto foreign_tc = foreign.getTypeCode();
if (foreign_tc == ::ot_reserved) {
throw std::logic_error("QPDF: attempting to copy a foreign reserved object");
}
if (foreign.isPagesObject()) {
QTC::TC("qpdf", "QPDF not copying pages object");
return;
}
if (foreign.isIndirect()) {
QPDFObjGen foreign_og(foreign.getObjGen());
if (!obj_copier.visiting.add(foreign_og)) {
QTC::TC("qpdf", "QPDF loop reserving objects");
return;
}
if (obj_copier.object_map.count(foreign_og) > 0) {
QTC::TC("qpdf", "QPDF already reserved object");
if (!(top && foreign.isPageObject() && obj_copier.object_map[foreign_og].isNull())) {
obj_copier.visiting.erase(foreign);
return;
}
} else {
QTC::TC("qpdf", "QPDF copy indirect");
obj_copier.object_map[foreign_og] =
foreign.isStream() ? newStream() : newIndirectNull();
if ((!top) && foreign.isPageObject()) {
QTC::TC("qpdf", "QPDF not crossing page boundary");
obj_copier.visiting.erase(foreign_og);
return;
}
}
obj_copier.to_copy.push_back(foreign);
}
if (foreign_tc == ::ot_array) {
QTC::TC("qpdf", "QPDF reserve array");
int n = foreign.getArrayNItems();
for (int i = 0; i < n; ++i) {
reserveObjects(foreign.getArrayItem(i), obj_copier, false);
}
} else if (foreign_tc == ::ot_dictionary) {
QTC::TC("qpdf", "QPDF reserve dictionary");
for (auto const& key: foreign.getKeys()) {
reserveObjects(foreign.getKey(key), obj_copier, false);
}
} else if (foreign_tc == ::ot_stream) {
QTC::TC("qpdf", "QPDF reserve stream");
reserveObjects(foreign.getDict(), obj_copier, false);
}
obj_copier.visiting.erase(foreign);
}
QPDFObjectHandle
QPDF::replaceForeignIndirectObjects(QPDFObjectHandle foreign, ObjCopier& obj_copier, bool top)
{
auto foreign_tc = foreign.getTypeCode();
QPDFObjectHandle result;
if ((!top) && foreign.isIndirect()) {
QTC::TC("qpdf", "QPDF replace indirect");
auto mapping = obj_copier.object_map.find(foreign.getObjGen());
if (mapping == obj_copier.object_map.end()) {
// This case would occur if this is a reference to a Pages object that we didn't
// traverse into.
QTC::TC("qpdf", "QPDF replace foreign indirect with null");
result = QPDFObjectHandle::newNull();
} else {
result = mapping->second;
}
} else if (foreign_tc == ::ot_array) {
QTC::TC("qpdf", "QPDF replace array");
result = QPDFObjectHandle::newArray();
int n = foreign.getArrayNItems();
for (int i = 0; i < n; ++i) {
result.appendItem(
// line-break
replaceForeignIndirectObjects(foreign.getArrayItem(i), obj_copier, false));
}
} else if (foreign_tc == ::ot_dictionary) {
QTC::TC("qpdf", "QPDF replace dictionary");
result = QPDFObjectHandle::newDictionary();
std::set<std::string> keys = foreign.getKeys();
for (auto const& iter: keys) {
result.replaceKey(
iter, replaceForeignIndirectObjects(foreign.getKey(iter), obj_copier, false));
}
} else if (foreign_tc == ::ot_stream) {
QTC::TC("qpdf", "QPDF replace stream");
result = obj_copier.object_map[foreign.getObjGen()];
result.assertStream();
QPDFObjectHandle dict = result.getDict();
QPDFObjectHandle old_dict = foreign.getDict();
std::set<std::string> keys = old_dict.getKeys();
for (auto const& iter: keys) {
dict.replaceKey(
iter, replaceForeignIndirectObjects(old_dict.getKey(iter), obj_copier, false));
}
copyStreamData(result, foreign);
} else {
foreign.assertScalar();
result = foreign;
result.makeDirect();
}
if (top && (!result.isStream()) && result.isIndirect()) {
throw std::logic_error("replacement for foreign object is indirect");
}
return result;
}
void
QPDF::copyStreamData(QPDFObjectHandle result, QPDFObjectHandle foreign)
{
// This method was originally written for copying foreign streams, but it is used by
// QPDFObjectHandle to copy streams from the same QPDF object as well.
QPDFObjectHandle dict = result.getDict();
QPDFObjectHandle old_dict = foreign.getDict();
if (m->copied_stream_data_provider == nullptr) {
m->copied_stream_data_provider = new CopiedStreamDataProvider(*this);
m->copied_streams =
std::shared_ptr<QPDFObjectHandle::StreamDataProvider>(m->copied_stream_data_provider);
}
QPDFObjGen local_og(result.getObjGen());
// Copy information from the foreign stream so we can pipe its data later without keeping the
// original QPDF object around.
QPDF& foreign_stream_qpdf =
foreign.getQPDF("unable to retrieve owning qpdf from foreign stream");
auto stream = foreign.getObjectPtr()->as<QPDF_Stream>();
if (stream == nullptr) {
throw std::logic_error("unable to retrieve underlying"
" stream object from foreign stream");
}
std::shared_ptr<Buffer> stream_buffer = stream->getStreamDataBuffer();
if ((foreign_stream_qpdf.m->immediate_copy_from) && (stream_buffer == nullptr)) {
// Pull the stream data into a buffer before attempting the copy operation. Do it on the
// source stream so that if the source stream is copied multiple times, we don't have to
// keep duplicating the memory.
QTC::TC("qpdf", "QPDF immediate copy stream data");
foreign.replaceStreamData(
foreign.getRawStreamData(),
old_dict.getKey("/Filter"),
old_dict.getKey("/DecodeParms"));
stream_buffer = stream->getStreamDataBuffer();
}
std::shared_ptr<QPDFObjectHandle::StreamDataProvider> stream_provider =
stream->getStreamDataProvider();
if (stream_buffer.get()) {
QTC::TC("qpdf", "QPDF copy foreign stream with buffer");
result.replaceStreamData(
stream_buffer, dict.getKey("/Filter"), dict.getKey("/DecodeParms"));
} else if (stream_provider.get()) {
// In this case, the remote stream's QPDF must stay in scope.
QTC::TC("qpdf", "QPDF copy foreign stream with provider");
m->copied_stream_data_provider->registerForeignStream(local_og, foreign);
result.replaceStreamData(
m->copied_streams, dict.getKey("/Filter"), dict.getKey("/DecodeParms"));
} else {
auto foreign_stream_data = std::make_shared<ForeignStreamData>(
foreign_stream_qpdf.m->encp,
foreign_stream_qpdf.m->file,
foreign.getObjGen(),
stream->getParsedOffset(),
stream->getLength(),
dict);
m->copied_stream_data_provider->registerForeignStream(local_og, foreign_stream_data);
result.replaceStreamData(
m->copied_streams, dict.getKey("/Filter"), dict.getKey("/DecodeParms"));
}
}
void
QPDF::swapObjects(int objid1, int generation1, int objid2, int generation2)
{
swapObjects(QPDFObjGen(objid1, generation1), QPDFObjGen(objid2, generation2));
}
void
QPDF::swapObjects(QPDFObjGen const& og1, QPDFObjGen const& og2)
{
// Force objects to be read from the input source if needed, then swap them in the cache.
resolve(og1);
resolve(og2);
m->obj_cache[og1].object->swapWith(m->obj_cache[og2].object);
}
unsigned long long
QPDF::getUniqueId() const
{
return m->unique_id;
}
std::string
QPDF::getFilename() const
{
return m->file->getName();
}
PDFVersion
QPDF::getVersionAsPDFVersion()
{
int major = 1;
int minor = 3;
int extension_level = getExtensionLevel();
std::regex v("^[[:space:]]*([0-9]+)\\.([0-9]+)");
std::smatch match;
if (std::regex_search(m->pdf_version, match, v)) {
major = QUtil::string_to_int(match[1].str().c_str());
minor = QUtil::string_to_int(match[2].str().c_str());
}
return {major, minor, extension_level};
}
std::string
QPDF::getPDFVersion() const
{
return m->pdf_version;
}
int
QPDF::getExtensionLevel()
{
int result = 0;
QPDFObjectHandle obj = getRoot();
if (obj.hasKey("/Extensions")) {
obj = obj.getKey("/Extensions");
if (obj.isDictionary() && obj.hasKey("/ADBE")) {
obj = obj.getKey("/ADBE");
if (obj.isDictionary() && obj.hasKey("/ExtensionLevel")) {
obj = obj.getKey("/ExtensionLevel");
if (obj.isInteger()) {
result = obj.getIntValueAsInt();
}
}
}
}
return result;
}
QPDFObjectHandle
QPDF::getTrailer()
{
return m->trailer;
}
QPDFObjectHandle
QPDF::getRoot()
{
QPDFObjectHandle root = m->trailer.getKey("/Root");
if (!root.isDictionary()) {
throw damagedPDF("", 0, "unable to find /Root dictionary");
} else if (
// Check_mode is an interim solution to request #810 pending a more comprehensive review of
// the approach to more extensive checks and warning levels.
m->check_mode && !root.getKey("/Type").isNameAndEquals("/Catalog")) {
warn(damagedPDF("", 0, "catalog /Type entry missing or invalid"));
root.replaceKey("/Type", "/Catalog"_qpdf);
}
return root;
}
std::map<QPDFObjGen, QPDFXRefEntry>
QPDF::getXRefTable()
{
return getXRefTableInternal();
}
std::map<QPDFObjGen, QPDFXRefEntry> const&
QPDF::getXRefTableInternal()
{
if (!m->parsed) {
throw std::logic_error("QPDF::getXRefTable called before parsing.");
}
return m->xref_table;
}
size_t
QPDF::tableSize()
{
// If obj_cache is dense, accommodate all object in tables,else accommodate only original
// objects.
auto max_xref = m->xref_table.size() ? m->xref_table.crbegin()->first.getObj() : 0;
auto max_obj = m->obj_cache.size() ? m->obj_cache.crbegin()->first.getObj() : 0;
auto max_id = std::numeric_limits<int>::max() - 1;
if (max_obj >= max_id || max_xref >= max_id) {
// Temporary fix. Long-term solution is
// - QPDFObjGen to enforce objgens are valid and sensible
// - xref table and obj cache to protect against insertion of impossibly large obj ids
stopOnError("Impossibly large object id encountered.");
}
if (max_obj < 1.1 * std::max(toI(m->obj_cache.size()), max_xref)) {
return toS(++max_obj);
}
return toS(++max_xref);
}
std::vector<QPDFObjGen>
QPDF::getCompressibleObjVector()
{
return getCompressibleObjGens<QPDFObjGen>();
}
std::vector<bool>
QPDF::getCompressibleObjSet()
{
return getCompressibleObjGens<bool>();
}
template <typename T>
std::vector<T>
QPDF::getCompressibleObjGens()
{
// Return a list of objects that are allowed to be in object streams. Walk through the objects
// by traversing the document from the root, including a traversal of the pages tree. This
// makes that objects that are on the same page are more likely to be in the same object stream,
// which is slightly more efficient, particularly with linearized files. This is better than
// iterating through the xref table since it avoids preserving orphaned items.
// Exclude encryption dictionary, if any
QPDFObjectHandle encryption_dict = m->trailer.getKey("/Encrypt");
QPDFObjGen encryption_dict_og = encryption_dict.getObjGen();
const size_t max_obj = getObjectCount();
std::vector<bool> visited(max_obj, false);
std::vector<QPDFObjectHandle> queue;
queue.reserve(512);
queue.push_back(m->trailer);
std::vector<T> result;
if constexpr (std::is_same_v<T, QPDFObjGen>) {
result.reserve(m->obj_cache.size());
} else if constexpr (std::is_same_v<T, bool>) {
result.resize(max_obj + 1U, false);
} else {
throw std::logic_error("Unsupported type in QPDF::getCompressibleObjGens");
}
while (!queue.empty()) {
auto obj = queue.back();
queue.pop_back();
if (obj.getObjectID() > 0) {
QPDFObjGen og = obj.getObjGen();
const size_t id = toS(og.getObj() - 1);
if (id >= max_obj) {
throw std::logic_error(
"unexpected object id encountered in getCompressibleObjGens");
}
if (visited[id]) {
QTC::TC("qpdf", "QPDF loop detected traversing objects");
continue;
}
// Check whether this is the current object. If not, remove it (which changes it into a
// direct null and therefore stops us from revisiting it) and move on to the next object
// in the queue.
auto upper = m->obj_cache.upper_bound(og);
if (upper != m->obj_cache.end() && upper->first.getObj() == og.getObj()) {
removeObject(og);
continue;
}
visited[id] = true;
if (og == encryption_dict_og) {
QTC::TC("qpdf", "QPDF exclude encryption dictionary");
} else if (!(obj.isStream() ||
(obj.isDictionaryOfType("/Sig") && obj.hasKey("/ByteRange") &&
obj.hasKey("/Contents")))) {
if constexpr (std::is_same_v<T, QPDFObjGen>) {
result.push_back(og);
} else if constexpr (std::is_same_v<T, bool>) {
result[id + 1U] = true;
}
}
}
if (obj.isStream()) {
QPDFObjectHandle dict = obj.getDict();
std::set<std::string> keys = dict.getKeys();
for (auto iter = keys.rbegin(); iter != keys.rend(); ++iter) {
std::string const& key = *iter;
QPDFObjectHandle value = dict.getKey(key);
if (key == "/Length") {
// omit stream lengths
if (value.isIndirect()) {
QTC::TC("qpdf", "QPDF exclude indirect length");
}
} else {
queue.push_back(value);
}
}
} else if (obj.isDictionary()) {
std::set<std::string> keys = obj.getKeys();
for (auto iter = keys.rbegin(); iter != keys.rend(); ++iter) {
queue.push_back(obj.getKey(*iter));
}
} else if (obj.isArray()) {
int n = obj.getArrayNItems();
for (int i = 1; i <= n; ++i) {
queue.push_back(obj.getArrayItem(n - i));
}
}
}
return result;
}
bool
QPDF::pipeStreamData(
std::shared_ptr<EncryptionParameters> encp,
std::shared_ptr<InputSource> file,
QPDF& qpdf_for_warning,
QPDFObjGen const& og,
qpdf_offset_t offset,
size_t length,
QPDFObjectHandle stream_dict,
Pipeline* pipeline,
bool suppress_warnings,
bool will_retry)
{
std::unique_ptr<Pipeline> to_delete;
if (encp->encrypted) {
decryptStream(encp, file, qpdf_for_warning, pipeline, og, stream_dict, to_delete);
}
bool attempted_finish = false;
try {
file->seek(offset, SEEK_SET);
auto buf = std::make_unique<char[]>(length);
if (auto read = file->read(buf.get(), length); read != length) {
throw damagedPDF(file, "", offset + toO(read), "unexpected EOF reading stream data");
}
pipeline->write(buf.get(), length);
attempted_finish = true;
pipeline->finish();
return true;
} catch (QPDFExc& e) {
if (!suppress_warnings) {
qpdf_for_warning.warn(e);
}
} catch (std::exception& e) {
if (!suppress_warnings) {
QTC::TC("qpdf", "QPDF decoding error warning");
qpdf_for_warning.warn(
// line-break
damagedPDF(
file,
"",
file->getLastOffset(),
("error decoding stream data for object " + og.unparse(' ') + ": " +
e.what())));
if (will_retry) {
qpdf_for_warning.warn(
// line-break
damagedPDF(
file,
"",
file->getLastOffset(),
"stream will be re-processed without filtering to avoid data loss"));
}
}
}
if (!attempted_finish) {
try {
pipeline->finish();
} catch (std::exception&) {
// ignore
}
}
return false;
}
bool
QPDF::pipeStreamData(
QPDFObjGen const& og,
qpdf_offset_t offset,
size_t length,
QPDFObjectHandle stream_dict,
Pipeline* pipeline,
bool suppress_warnings,
bool will_retry)
{
return pipeStreamData(
m->encp,
m->file,
*this,
og,
offset,
length,
stream_dict,
pipeline,
suppress_warnings,
will_retry);
}
bool
QPDF::pipeForeignStreamData(
std::shared_ptr<ForeignStreamData> foreign,
Pipeline* pipeline,
bool suppress_warnings,
bool will_retry)
{
if (foreign->encp->encrypted) {
QTC::TC("qpdf", "QPDF pipe foreign encrypted stream");
}
return pipeStreamData(
foreign->encp,
foreign->file,
*this,
foreign->foreign_og,
foreign->offset,
foreign->length,
foreign->local_dict,
pipeline,
suppress_warnings,
will_retry);
}
// Throw a generic exception when we lack context for something more specific. New code should not
// use this. This method exists to improve somewhat from calling assert in very old code.
void
QPDF::stopOnError(std::string const& message)
{
throw damagedPDF("", message);
}
// Return an exception of type qpdf_e_damaged_pdf.
QPDFExc
QPDF::damagedPDF(
std::shared_ptr<InputSource> const& input,
std::string const& object,
qpdf_offset_t offset,
std::string const& message)
{
return {qpdf_e_damaged_pdf, input->getName(), object, offset, message};
}
// Return an exception of type qpdf_e_damaged_pdf. The object is taken from
// m->last_object_description.
QPDFExc
QPDF::damagedPDF(
std::shared_ptr<InputSource> const& input, qpdf_offset_t offset, std::string const& message)
{
return damagedPDF(input, m->last_object_description, offset, message);
}
// Return an exception of type qpdf_e_damaged_pdf. The filename is taken from m->file.
QPDFExc
QPDF::damagedPDF(std::string const& object, qpdf_offset_t offset, std::string const& message)
{
return {qpdf_e_damaged_pdf, m->file->getName(), object, offset, message};
}
// Return an exception of type qpdf_e_damaged_pdf. The filename is taken from m->file and the
// offset from .m->file->getLastOffset().
QPDFExc
QPDF::damagedPDF(std::string const& object, std::string const& message)
{
return damagedPDF(object, m->file->getLastOffset(), message);
}
// Return an exception of type qpdf_e_damaged_pdf. The filename is taken from m->file and the object
// from .m->last_object_description.
QPDFExc
QPDF::damagedPDF(qpdf_offset_t offset, std::string const& message)
{
return damagedPDF(m->last_object_description, offset, message);
}
// Return an exception of type qpdf_e_damaged_pdf. The filename is taken from m->file, the object
// from m->last_object_description and the offset from m->file->getLastOffset().
QPDFExc
QPDF::damagedPDF(std::string const& message)
{
return damagedPDF(m->last_object_description, m->file->getLastOffset(), message);
}
bool
QPDF::everCalledGetAllPages() const
{
return m->ever_called_get_all_pages;
}
bool
QPDF::everPushedInheritedAttributesToPages() const
{
return m->ever_pushed_inherited_attributes_to_pages;
}
void
QPDF::removeSecurityRestrictions()
{
auto root = getRoot();
root.removeKey("/Perms");
auto acroform = root.getKey("/AcroForm");
if (acroform.isDictionary() && acroform.hasKey("/SigFlags")) {
acroform.replaceKey("/SigFlags", QPDFObjectHandle::newInteger(0));
}
}