#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace { class SF_Crypt: public QPDFStreamFilter { public: SF_Crypt() = default; ~SF_Crypt() override = default; bool setDecodeParms(QPDFObjectHandle decode_parms) override { if (decode_parms.isNull()) { return true; } bool filterable = true; for (auto const& key: decode_parms.getKeys()) { if (((key == "/Type") || (key == "/Name")) && ((!decode_parms.hasKey("/Type")) || decode_parms.isDictionaryOfType("/CryptFilterDecodeParms"))) { // we handle this in decryptStream } else { filterable = false; } } return filterable; } Pipeline* getDecodePipeline(Pipeline*) override { // Not used -- handled by pipeStreamData return nullptr; } }; class StreamBlobProvider { public: StreamBlobProvider(QPDF_Stream* stream, qpdf_stream_decode_level_e decode_level); void operator()(Pipeline*); private: QPDF_Stream* stream; qpdf_stream_decode_level_e decode_level; }; } // namespace std::map QPDF_Stream::filter_abbreviations = { // The PDF specification provides these filter abbreviations for use in inline images, but // according to table H.1 in the pre-ISO versions of the PDF specification, Adobe Reader also // accepts them for stream filters. {"/AHx", "/ASCIIHexDecode"}, {"/A85", "/ASCII85Decode"}, {"/LZW", "/LZWDecode"}, {"/Fl", "/FlateDecode"}, {"/RL", "/RunLengthDecode"}, {"/CCF", "/CCITTFaxDecode"}, {"/DCT", "/DCTDecode"}, }; std::map()>> QPDF_Stream::filter_factories = { {"/Crypt", []() { return std::make_shared(); }}, {"/FlateDecode", SF_FlateLzwDecode::flate_factory}, {"/LZWDecode", SF_FlateLzwDecode::lzw_factory}, {"/RunLengthDecode", SF_RunLengthDecode::factory}, {"/DCTDecode", SF_DCTDecode::factory}, {"/ASCII85Decode", SF_ASCII85Decode::factory}, {"/ASCIIHexDecode", SF_ASCIIHexDecode::factory}, }; StreamBlobProvider::StreamBlobProvider( QPDF_Stream* stream, qpdf_stream_decode_level_e decode_level) : stream(stream), decode_level(decode_level) { } void StreamBlobProvider::operator()(Pipeline* p) { this->stream->pipeStreamData(p, nullptr, 0, decode_level, false, false); } QPDF_Stream::QPDF_Stream( QPDF* qpdf, QPDFObjGen const& og, QPDFObjectHandle stream_dict, qpdf_offset_t offset, size_t length) : QPDFValue(::ot_stream, "stream"), filter_on_write(true), stream_dict(stream_dict), length(length) { if (!stream_dict.isDictionary()) { throw std::logic_error( "stream object instantiated with non-dictionary object for dictionary"); } auto descr = std::make_shared( qpdf->getFilename() + ", stream object " + og.unparse(' ')); setDescription(qpdf, descr, offset); } std::shared_ptr QPDF_Stream::create( QPDF* qpdf, QPDFObjGen const& og, QPDFObjectHandle stream_dict, qpdf_offset_t offset, size_t length) { return do_create(new QPDF_Stream(qpdf, og, stream_dict, offset, length)); } std::shared_ptr QPDF_Stream::copy(bool shallow) { QTC::TC("qpdf", "QPDF_Stream ERR shallow copy stream"); throw std::runtime_error("stream objects cannot be cloned"); } void QPDF_Stream::registerStreamFilter( std::string const& filter_name, std::function()> factory) { filter_factories[filter_name] = factory; } void QPDF_Stream::setFilterOnWrite(bool val) { this->filter_on_write = val; } bool QPDF_Stream::getFilterOnWrite() const { return this->filter_on_write; } void QPDF_Stream::disconnect() { this->stream_provider = nullptr; QPDFObjectHandle::DisconnectAccess::disconnect(this->stream_dict); } std::string QPDF_Stream::unparse() { // Unparse stream objects as indirect references return og.unparse(' ') + " R"; } void QPDF_Stream::writeJSON(int json_version, JSON::Writer& jw) { stream_dict.writeJSON(json_version, jw); } JSON QPDF_Stream::getStreamJSON( int json_version, qpdf_json_stream_data_e json_data, qpdf_stream_decode_level_e decode_level, Pipeline* p, std::string const& data_filename) { Pl_Buffer pb{"streamjson"}; JSON::Writer jw{&pb, 0}; decode_level = writeStreamJSON(json_version, jw, json_data, decode_level, p, data_filename, true); pb.finish(); auto result = JSON::parse(pb.getString()); if (json_data == qpdf_sj_inline) { result.addDictionaryMember("data", JSON::makeBlob(StreamBlobProvider(this, decode_level))); } return result; } qpdf_stream_decode_level_e QPDF_Stream::writeStreamJSON( int json_version, JSON::Writer& jw, qpdf_json_stream_data_e json_data, qpdf_stream_decode_level_e decode_level, Pipeline* p, std::string const& data_filename, bool no_data_key) { switch (json_data) { case qpdf_sj_none: case qpdf_sj_inline: if (p != nullptr) { throw std::logic_error("QPDF_Stream::writeStreamJSON: pipeline should only be supplied " "when json_data is file"); } break; case qpdf_sj_file: if (p == nullptr) { throw std::logic_error( "QPDF_Stream::writeStreamJSON: pipeline must be supplied when json_data is file"); } if (data_filename.empty()) { throw std::logic_error("QPDF_Stream::writeStreamJSON: data_filename must be supplied " "when json_data is file"); } break; } jw.writeStart('{'); if (json_data == qpdf_sj_none) { jw.writeNext(); jw << R"("dict": )"; stream_dict.writeJSON(json_version, jw); jw.writeEnd('}'); return decode_level; } Pl_Discard discard; Pl_Buffer buf_pl{"stream data"}; Pipeline* data_pipeline = &buf_pl; if (no_data_key && json_data == qpdf_sj_inline) { data_pipeline = &discard; } // pipeStreamData produced valid data. bool buf_pl_ready = false; bool filtered = false; bool filter = (decode_level != qpdf_dl_none); for (int attempt = 1; attempt <= 2; ++attempt) { bool succeeded = pipeStreamData(data_pipeline, &filtered, 0, decode_level, false, (attempt == 1)); if (!succeeded || (filter && !filtered)) { // Try again filter = false; decode_level = qpdf_dl_none; buf_pl.getString(); // reset buf_pl } else { buf_pl_ready = true; break; } } if (!buf_pl_ready) { throw std::logic_error("QPDF_Stream: failed to get stream data"); } // We can use unsafeShallowCopy because we are only touching top-level keys. auto dict = stream_dict.unsafeShallowCopy(); dict.removeKey("/Length"); if (filter && filtered) { dict.removeKey("/Filter"); dict.removeKey("/DecodeParms"); } if (json_data == qpdf_sj_file) { jw.writeNext() << R"("datafile": ")" << JSON::Writer::encode_string(data_filename) << "\""; p->writeString(buf_pl.getString()); } else if (json_data == qpdf_sj_inline) { if (!no_data_key) { jw.writeNext() << R"("data": ")"; jw.writeBase64(buf_pl.getString()) << "\""; } } else { throw std::logic_error("QPDF_Stream::writeStreamJSON : unexpected value of json_data"); } jw.writeNext() << R"("dict": )"; dict.writeJSON(json_version, jw); jw.writeEnd('}'); return decode_level; } void QPDF_Stream::setDescription( QPDF* qpdf, std::shared_ptr& description, qpdf_offset_t offset) { this->QPDFValue::setDescription(qpdf, description, offset); setDictDescription(); } void QPDF_Stream::setDictDescription() { if (!this->stream_dict.hasObjectDescription()) { this->stream_dict.setObjectDescription(qpdf, getDescription() + " -> stream dictionary"); } } QPDFObjectHandle QPDF_Stream::getDict() const { return this->stream_dict; } bool QPDF_Stream::isDataModified() const { return (!this->token_filters.empty()); } size_t QPDF_Stream::getLength() const { return this->length; } std::shared_ptr QPDF_Stream::getStreamDataBuffer() const { return this->stream_data; } std::shared_ptr QPDF_Stream::getStreamDataProvider() const { return this->stream_provider; } std::shared_ptr QPDF_Stream::getStreamData(qpdf_stream_decode_level_e decode_level) { Pl_Buffer buf("stream data buffer"); bool filtered; pipeStreamData(&buf, &filtered, 0, decode_level, false, false); if (!filtered) { throw QPDFExc( qpdf_e_unsupported, qpdf->getFilename(), "", this->parsed_offset, "getStreamData called on unfilterable stream"); } QTC::TC("qpdf", "QPDF_Stream getStreamData"); return buf.getBufferSharedPointer(); } std::shared_ptr QPDF_Stream::getRawStreamData() { Pl_Buffer buf("stream data buffer"); if (!pipeStreamData(&buf, nullptr, 0, qpdf_dl_none, false, false)) { throw QPDFExc( qpdf_e_unsupported, qpdf->getFilename(), "", this->parsed_offset, "error getting raw stream data"); } QTC::TC("qpdf", "QPDF_Stream getRawStreamData"); return buf.getBufferSharedPointer(); } bool QPDF_Stream::filterable( std::vector>& filters, bool& specialized_compression, bool& lossy_compression) { // Check filters QPDFObjectHandle filter_obj = this->stream_dict.getKey("/Filter"); bool filters_okay = true; std::vector filter_names; if (filter_obj.isNull()) { // No filters } else if (filter_obj.isName()) { // One filter filter_names.push_back(filter_obj.getName()); } else if (filter_obj.isArray()) { // Potentially multiple filters int n = filter_obj.getArrayNItems(); for (int i = 0; i < n; ++i) { QPDFObjectHandle item = filter_obj.getArrayItem(i); if (item.isName()) { filter_names.push_back(item.getName()); } else { filters_okay = false; } } } else { filters_okay = false; } if (!filters_okay) { QTC::TC("qpdf", "QPDF_Stream invalid filter"); warn("stream filter type is not name or array"); return false; } bool filterable = true; for (auto& filter_name: filter_names) { if (filter_abbreviations.count(filter_name)) { QTC::TC("qpdf", "QPDF_Stream expand filter abbreviation"); filter_name = filter_abbreviations[filter_name]; } auto ff = filter_factories.find(filter_name); if (ff == filter_factories.end()) { filterable = false; } else { filters.push_back((ff->second)()); } } if (!filterable) { return false; } // filters now contains a list of filters to be applied in order. See which ones we can support. // See if we can support any decode parameters that are specified. QPDFObjectHandle decode_obj = this->stream_dict.getKey("/DecodeParms"); std::vector decode_parms; if (decode_obj.isArray() && (decode_obj.getArrayNItems() == 0)) { decode_obj = QPDFObjectHandle::newNull(); } if (decode_obj.isArray()) { for (int i = 0; i < decode_obj.getArrayNItems(); ++i) { decode_parms.push_back(decode_obj.getArrayItem(i)); } } else { for (unsigned int i = 0; i < filter_names.size(); ++i) { decode_parms.push_back(decode_obj); } } // Ignore /DecodeParms entirely if /Filters is empty. At least one case of a file whose // /DecodeParms was [ << >> ] when /Filters was empty has been seen in the wild. if ((filters.size() != 0) && (decode_parms.size() != filters.size())) { warn("stream /DecodeParms length is inconsistent with filters"); filterable = false; } if (!filterable) { return false; } for (size_t i = 0; i < filters.size(); ++i) { auto filter = filters.at(i); auto decode_item = decode_parms.at(i); if (filter->setDecodeParms(decode_item)) { if (filter->isSpecializedCompression()) { specialized_compression = true; } if (filter->isLossyCompression()) { specialized_compression = true; lossy_compression = true; } } else { filterable = false; } } return filterable; } bool QPDF_Stream::pipeStreamData( Pipeline* pipeline, bool* filterp, int encode_flags, qpdf_stream_decode_level_e decode_level, bool suppress_warnings, bool will_retry) { std::vector> filters; bool specialized_compression = false; bool lossy_compression = false; bool ignored; if (filterp == nullptr) { filterp = &ignored; } bool& filter = *filterp; filter = (!((encode_flags == 0) && (decode_level == qpdf_dl_none))); bool success = true; if (filter) { filter = filterable(filters, specialized_compression, lossy_compression); if ((decode_level < qpdf_dl_all) && lossy_compression) { filter = false; } if ((decode_level < qpdf_dl_specialized) && specialized_compression) { filter = false; } QTC::TC( "qpdf", "QPDF_Stream special filters", (!filter) ? 0 : lossy_compression ? 1 : specialized_compression ? 2 : 3); } if (pipeline == nullptr) { QTC::TC("qpdf", "QPDF_Stream pipeStreamData with null pipeline"); // Return value is whether we can filter in this case. return filter; } // Construct the pipeline in reverse order. Force pipelines we create to be deleted when this // function finishes. Pipelines created by QPDFStreamFilter objects will be deleted by those // objects. std::vector> to_delete; std::shared_ptr normalizer; std::shared_ptr new_pipeline; if (filter) { if (encode_flags & qpdf_ef_compress) { new_pipeline = std::make_shared("compress stream", pipeline, Pl_Flate::a_deflate); to_delete.push_back(new_pipeline); pipeline = new_pipeline.get(); } if (encode_flags & qpdf_ef_normalize) { normalizer = std::make_shared(); new_pipeline = std::make_shared("normalizer", normalizer.get(), pipeline); to_delete.push_back(new_pipeline); pipeline = new_pipeline.get(); } for (auto iter = this->token_filters.rbegin(); iter != this->token_filters.rend(); ++iter) { new_pipeline = std::make_shared("token filter", (*iter).get(), pipeline); to_delete.push_back(new_pipeline); pipeline = new_pipeline.get(); } for (auto f_iter = filters.rbegin(); f_iter != filters.rend(); ++f_iter) { auto decode_pipeline = (*f_iter)->getDecodePipeline(pipeline); if (decode_pipeline) { pipeline = decode_pipeline; } auto* flate = dynamic_cast(pipeline); if (flate != nullptr) { flate->setWarnCallback([this](char const* msg, int code) { warn(msg); }); } } } if (this->stream_data.get()) { QTC::TC("qpdf", "QPDF_Stream pipe replaced stream data"); pipeline->write(this->stream_data->getBuffer(), this->stream_data->getSize()); pipeline->finish(); } else if (this->stream_provider.get()) { Pl_Count count("stream provider count", pipeline); if (this->stream_provider->supportsRetry()) { if (!this->stream_provider->provideStreamData( og, &count, suppress_warnings, will_retry)) { filter = false; success = false; } } else { this->stream_provider->provideStreamData(og, &count); } qpdf_offset_t actual_length = count.getCount(); qpdf_offset_t desired_length = 0; if (success && this->stream_dict.hasKey("/Length")) { desired_length = this->stream_dict.getKey("/Length").getIntValue(); if (actual_length == desired_length) { QTC::TC("qpdf", "QPDF_Stream pipe use stream provider"); } else { QTC::TC("qpdf", "QPDF_Stream provider length mismatch"); // This would be caused by programmer error on the part of a library user, not by // invalid input data. throw std::runtime_error( "stream data provider for " + og.unparse(' ') + " provided " + std::to_string(actual_length) + " bytes instead of expected " + std::to_string(desired_length) + " bytes"); } } else if (success) { QTC::TC("qpdf", "QPDF_Stream provider length not provided"); this->stream_dict.replaceKey("/Length", QPDFObjectHandle::newInteger(actual_length)); } } else if (this->parsed_offset == 0) { QTC::TC("qpdf", "QPDF_Stream pipe no stream data"); throw std::logic_error("pipeStreamData called for stream with no data"); } else { QTC::TC("qpdf", "QPDF_Stream pipe original stream data"); if (!QPDF::Pipe::pipeStreamData( this->qpdf, og, this->parsed_offset, this->length, this->stream_dict, pipeline, suppress_warnings, will_retry)) { filter = false; success = false; } } if (filter && (!suppress_warnings) && normalizer.get() && normalizer->anyBadTokens()) { warn("content normalization encountered bad tokens"); if (normalizer->lastTokenWasBad()) { QTC::TC("qpdf", "QPDF_Stream bad token at end during normalize"); warn("normalized content ended with a bad token; you may be able to resolve this by " "coalescing content streams in combination with normalizing content. From the " "command line, specify --coalesce-contents"); } warn("Resulting stream data may be corrupted but is may still useful for manual " "inspection. For more information on this warning, search for content normalization " "in the manual."); } return success; } void QPDF_Stream::replaceStreamData( std::shared_ptr data, QPDFObjectHandle const& filter, QPDFObjectHandle const& decode_parms) { this->stream_data = data; this->stream_provider = nullptr; replaceFilterData(filter, decode_parms, data->getSize()); } void QPDF_Stream::replaceStreamData( std::shared_ptr provider, QPDFObjectHandle const& filter, QPDFObjectHandle const& decode_parms) { this->stream_provider = provider; this->stream_data = nullptr; replaceFilterData(filter, decode_parms, 0); } void QPDF_Stream::addTokenFilter(std::shared_ptr token_filter) { this->token_filters.push_back(token_filter); } void QPDF_Stream::replaceFilterData( QPDFObjectHandle const& filter, QPDFObjectHandle const& decode_parms, size_t length) { if (filter.isInitialized()) { this->stream_dict.replaceKey("/Filter", filter); } if (decode_parms.isInitialized()) { this->stream_dict.replaceKey("/DecodeParms", decode_parms); } if (length == 0) { QTC::TC("qpdf", "QPDF_Stream unknown stream length"); this->stream_dict.removeKey("/Length"); } else { this->stream_dict.replaceKey( "/Length", QPDFObjectHandle::newInteger(QIntC::to_longlong(length))); } } void QPDF_Stream::replaceDict(QPDFObjectHandle const& new_dict) { this->stream_dict = new_dict; setDictDescription(); } void QPDF_Stream::warn(std::string const& message) { this->qpdf->warn(qpdf_e_damaged_pdf, "", this->parsed_offset, message); }