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533 lines
19 KiB
C++
533 lines
19 KiB
C++
#include <qpdf/QPDF.hh>
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#include <qpdf/QUtil.hh>
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#include <qpdf/QPDFWriter.hh>
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#include <qpdf/QPDFStreamFilter.hh>
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#include <cstring>
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#include <exception>
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#include <iostream>
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#include <memory>
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// This example shows you everything you need to know to implement a
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// custom stream filter for encoding and decoding as well as a stream
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// data provider that modifies the stream's dictionary. This example
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// uses the pattern of having the stream data provider class use a
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// second QPDF instance with copies of streams from the original QPDF
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// so that the stream data provider can access the original stream
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// data. This is implement very efficiently inside the qpdf library as
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// the second QPDF instance knows how to read the stream data from the
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// original input file, so no extra copies of the original stream data
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// are made.
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// This example creates an imaginary filter called /XORDecode. There
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// is no such filter in PDF, so the streams created by the example
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// would not be usable by any PDF reader. However, the techniques here
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// would work if you were going to implement support for a filter that
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// qpdf does not support natively. For example, using the techniques
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// shown here, it would be possible to create an application that
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// downsampled or re-encoded images or that re-compressed streams
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// using a more efficient "deflate" implementation than zlib.
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// Comments appear throughout the code describing each piece of code
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// and its purpose. You can read the file top to bottom, or you can
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// start with main() and follow the flow.
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// Please also see the test suite, qtest/custom-filter.test, which
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// contains additional comments describing how to observe the results
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// of running this example on test files that are specifically crafted
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// for it.
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static char const* whoami = 0;
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class Pl_XOR: public Pipeline
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{
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// This class implements a Pipeline for the made-up XOR decoder.
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// It is initialized with a single-byte "key" and just XORs each
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// byte with that key. This makes it reversible, so there is no
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// distinction between encoding and decoding.
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public:
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Pl_XOR(char const* identifier, Pipeline* next, unsigned char key);
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virtual ~Pl_XOR() = default;
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virtual void write(unsigned char* data, size_t len) override;
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virtual void finish() override;
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private:
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unsigned char key;
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};
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Pl_XOR::Pl_XOR(char const* identifier, Pipeline* next, unsigned char key) :
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Pipeline(identifier, next),
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key(key)
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{
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}
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void
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Pl_XOR::write(unsigned char* data, size_t len)
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{
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for (size_t i = 0; i < len; ++i)
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{
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unsigned char p = data[i] ^ this->key;
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getNext()->write(&p, 1);
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}
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}
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void
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Pl_XOR::finish()
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{
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getNext()->finish();
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}
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class SF_XORDecode: public QPDFStreamFilter
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{
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// This class implements a QPDFStreamFilter that knows how to
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// validate and interpret decode parameters (/DecodeParms) for the
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// made-up /XORDecode stream filter. Since this is not a real
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// stream filter, no actual PDF reader would know how to interpret
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// it. This is just to illustrate how to create a stream filter.
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// In main(), we call QPDF::registerStreamFilter to tell the
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// library about the filter. See comments in QPDFStreamFilter.hh
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// for details on how to implement the methods. For purposes of
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// example, we are calling this a "specialized" compression
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// filter, which just means QPDF assumes that it should not
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// "uncompress" the stream by default.
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public:
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virtual ~SF_XORDecode() = default;
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virtual bool setDecodeParms(QPDFObjectHandle decode_parms) override;
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virtual Pipeline* getDecodePipeline(Pipeline* next) override;
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virtual bool isSpecializedCompression() override;
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private:
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unsigned char key;
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// It is the responsibility of the QPDFStreamFilter implementation
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// to ensure that the pipeline returned by getDecodePipeline() is
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// deleted when the class is deleted. The easiest way to do this
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// is to stash the pipeline in a std::shared_ptr, which enables us
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// to use the default destructor implementation.
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std::shared_ptr<Pl_XOR> pipeline;
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};
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bool
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SF_XORDecode::setDecodeParms(QPDFObjectHandle decode_parms)
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{
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// For purposes of example, we store the key in a separate stream.
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// We could just as well store the key directly in /DecodeParms,
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// but this example uses a stream to illustrate how one might do
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// that. For example, if implementing /JBIG2Decode, one would need
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// to handle the /JBIG2Globals key, which points to a stream. See
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// comments in SF_XORDecode::registerStream for additional notes
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// on this.
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try
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{
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// Expect /DecodeParms to be a dictionary with a /KeyStream
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// key that points to a one-byte stream whose single byte is
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// the key. If we are successful at retrieving the key, return
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// true, indicating that we are able to process with the given
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// decode parameters. Under any other circumstances, return
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// false. For other examples of QPDFStreamFilter
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// implementations, look at the classes whose names start with
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// SF_ in the qpdf library implementation.
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auto buf = decode_parms.getKey("/KeyStream").getStreamData();
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if (buf->getSize() != 1)
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{
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return false;
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}
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this->key = buf->getBuffer()[0];
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return true;
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}
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catch (std::exception& e)
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{
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std::cerr << "Error extracting key for /XORDecode: "
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<< e.what() << std::endl;
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}
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return false;
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}
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Pipeline*
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SF_XORDecode::getDecodePipeline(Pipeline* next)
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{
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// Return a pipeline that the qpdf library should pass the stream
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// data through. The pipeline should receive encoded data and pass
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// decoded data to "next". getDecodePipeline() can always count on
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// setDecodeParms() having been called first. The setDecodeParms()
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// method should store any parameters needed by the pipeline. To
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// ensure that the pipeline we return disappears when the class
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// disappears, stash it in a std::shared_ptr<Pl_XOR> and retrieve
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// the raw pointer from there.
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this->pipeline = std::make_shared<Pl_XOR>("xor", next, this->key);
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return this->pipeline.get();
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}
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bool
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SF_XORDecode::isSpecializedCompression()
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{
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// The default implementation of QPDFStreamFilter would return
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// false, so if you want a specialized or lossy compression
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// filter, override one of the methods as described in
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// QPDFStreamFilter.hh.
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return true;
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}
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class StreamReplacer: public QPDFObjectHandle::StreamDataProvider
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{
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// This class implements a StreamDataProvider that, under specific
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// conditions, replaces the stream data with data encoded with the
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// made-up /XORDecode filter.
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// The flow for this class is as follows:
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//
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// * The main application iterates through streams that should be
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// replaced and calls registerStream. registerStream in turn
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// calls maybeReplace passing nullptr to pipeline and the
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// address of a valid QPDFObjectHandle to dict_updates. The
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// stream passed in for this call is the stream for the original
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// QPDF object. It has not yet been altered, so we have access
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// to its original dictionary and data. As described in the
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// method, the method when called in this way makes a
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// determination as to whether the stream should be replaced. If
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// so, registerStream makes whatever changes are required. We
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// have to do this now because we can't modify the stream during
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// the writing process.
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//
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// * provideStreamData(), which is called by QPDFWriter during the
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// write process, actually writes the modified stream data. It
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// calls maybeReplace again, but this time it passes a valid
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// pipeline and passes nullptr to dict_updates. In this mode,
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// the stream dictionary has already been altered, and the
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// original stream data is no longer directly accessible. Trying
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// to retrieve the stream data would be an infinite loop because
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// it would just end up calling provideStreamData again. This is
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// why maybeReplace uses a stashed copy of the original stream
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// from the "other" QPDF object.
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// Additional explanation can be found in the method
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// implementations.
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public:
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StreamReplacer(QPDF* pdf);
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virtual ~StreamReplacer() = default;
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virtual void provideStreamData(int objid, int generation,
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Pipeline* pipeline) override;
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void registerStream(
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QPDFObjectHandle stream,
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PointerHolder<QPDFObjectHandle::StreamDataProvider> self);
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private:
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bool maybeReplace(QPDFObjGen const& og,
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QPDFObjectHandle& stream, Pipeline* pipeline,
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QPDFObjectHandle* dict_updates);
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// Hang onto a reference to the QPDF object containing the streams
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// we are replacing. We need this to create a new stream.
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QPDF* pdf;
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// This second QPDF instance gives us a place to copy streams to
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// so that we can access the original stream data of the streams
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// whose data we are replacing.
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QPDF other;
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// Map the object/generation in original file to the copied stream
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// in "other". We use this to retrieve the original data.
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std::map<QPDFObjGen, QPDFObjectHandle> copied_streams;
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// Each stream gets is own "key" for the XOR filter. We use a
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// single instance of StreamReplacer for all streams, so stash all
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// the keys here.
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std::map<QPDFObjGen, unsigned char> keys;
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};
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StreamReplacer::StreamReplacer(QPDF* pdf) :
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pdf(pdf)
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{
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// Our "other" QPDF is just a place to stash streams. It doesn't
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// have to be a valid PDF with pages, etc. We are never going to
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// write this out.
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this->other.emptyPDF();
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}
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bool
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StreamReplacer::maybeReplace(QPDFObjGen const& og,
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QPDFObjectHandle& stream,
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Pipeline* pipeline,
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QPDFObjectHandle* dict_updates)
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{
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// As described in the class comments, this method is called
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// twice. Before writing has started pipeline is nullptr, and
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// dict_updates is provided. In this mode, we figure out whether
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// we should replace the stream and, if so, take care of the
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// necessary setup. When we are actually ready to supply the data,
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// this method is called again with pipeline populated and
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// dict_updates as a nullptr. In this mode, we are not allowed to
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// change anything, since writing is already in progress. We
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// must simply provide the stream data.
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// The return value indicates whether or not we should replace the
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// stream. If the first call returns false, there will be no
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// second call. If the second call returns false, something went
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// wrong since the method should always make the same decision for
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// a given stream.
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// For this example, all the determination logic could have
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// appeared inside the if (dict_updates) block rather than being
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// duplicated, but in some cases, there may be a reason to
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// duplicate things. For example, if you wanted to write code that
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// re-encoded an image if the new encoding was more efficient,
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// you'd have to actually try it out. Then you would either have
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// to cache the result somewhere or just repeat the calculations,
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// depending on space/time constraints, etc.
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// In our contrived example, we are replacing the data for all
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// streams that have /DoXOR = true in the stream dictionary. If
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// this were a more realistic application, our criteria would be
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// more sensible. For example, an image downsampler might choose
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// to replace a stream that represented an image with a high pixel
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// density.
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auto dict = stream.getDict();
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auto mark = dict.getKey("/DoXOR");
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if (! (mark.isBool() && mark.getBoolValue()))
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{
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return false;
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}
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// We can't replace the stream data if we can't get the original
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// stream data for any reason. A more realistic application may
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// actually look at the data here as well, or it may be able to
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// make all its decisions from the stream dictionary. However,
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// it's a good idea to make sure we can retrieve the filtered data
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// if we are going to need it later.
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PointerHolder<Buffer> out;
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try
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{
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out = stream.getStreamData();
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}
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catch (...)
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{
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return false;
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}
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if (dict_updates)
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{
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// It's not safe to make any modifications to any objects
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// during the writing process since the updated objects may
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// have already been written. In this mode, when dict_updates
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// is provided, we have not started writing. Store the
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// modifications we intend to make to the stream dictionary
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// here. We're just storing /OrigLength for purposes of
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// example. Again, a realistic application would make other
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// changes. For example, an image resampler might change the
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// dimensions or other properties of the image.
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dict_updates->replaceKey(
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"/OrigLength", QPDFObjectHandle::newInteger(
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QIntC::to_longlong(out->getSize())));
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// We are also storing the "key" that we will access when
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// writing the data.
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this->keys[og] = QIntC::to_uchar(
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(og.getObj() * QIntC::to_int(out->getSize())) & 0xff);
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}
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if (pipeline)
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{
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unsigned char key = this->keys[og];
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Pl_XOR p("xor", pipeline, key);
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p.write(out->getBuffer(), out->getSize());
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p.finish();
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}
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return true;
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}
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void
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StreamReplacer::registerStream(
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QPDFObjectHandle stream,
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PointerHolder<QPDFObjectHandle::StreamDataProvider> self)
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{
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QPDFObjGen og(stream.getObjGen());
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// We don't need to process a stream more than once. In this
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// example, we are just iterating through objects, but if we were
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// doing something like iterating through images on pages, we
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// might realistically encounter the same stream more than once.
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if (this->copied_streams.count(og) > 0)
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{
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return;
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}
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// Store something in copied_streams so that we don't
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// double-process even in the negative case. This gets replaced
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// later if needed.
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this->copied_streams[og] = QPDFObjectHandle::newNull();
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// Call maybeReplace with dict_updates. In this mode, it
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// determines whether we should replace the stream data and, if
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// so, supplies dictionary updates we should make.
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bool should_replace = false;
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QPDFObjectHandle dict_updates = QPDFObjectHandle::newDictionary();
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try
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{
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should_replace = maybeReplace(og, stream, nullptr, &dict_updates);
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}
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catch (std::exception& e)
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{
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stream.warnIfPossible(
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std::string("exception while attempting to replace: ") +
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e.what());
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}
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if (should_replace)
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{
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// Copy the stream to another QPDF object so we can get to the
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// original data from the stream data provider.
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this->copied_streams[og] = this->other.copyForeignObject(stream);
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// Update the stream dictionary with any changes.
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auto dict = stream.getDict();
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for (auto const& k: dict_updates.getKeys())
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{
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dict.replaceKey(k, dict_updates.getKey(k));
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}
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// Create the key stream that will be referenced from
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// /DecodeParms. We have to do this now since you can't modify
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// or create objects during write.
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char p[1] = { static_cast<char>(this->keys[og]) };
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std::string p_str(p, 1);
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QPDFObjectHandle dp_stream =
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QPDFObjectHandle::newStream(this->pdf, p_str);
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// Create /DecodeParms as expected by our fictitious
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// /XORDecode filter.
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QPDFObjectHandle decode_parms =
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QPDFObjectHandle::newDictionary({{"/KeyStream", dp_stream}});
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stream.replaceStreamData(
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self,
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QPDFObjectHandle::newName("/XORDecode"),
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decode_parms);
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// Further, if /ProtectXOR = true, we disable filtering on write
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// so that QPDFWriter will not decode the stream even though we
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// have registered a stream filter for /XORDecode.
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auto protect = dict.getKey("/ProtectXOR");
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if (protect.isBool() && protect.getBoolValue())
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{
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stream.setFilterOnWrite(false);
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}
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}
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}
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void
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StreamReplacer::provideStreamData(int objid, int generation,
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Pipeline* pipeline)
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{
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QPDFObjGen og(objid, generation);
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QPDFObjectHandle orig = this->copied_streams[og];
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// call maybeReplace again, this time with the pipeline and no
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// dict_updates. In this mode, maybeReplace doesn't make any
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// changes. We have to hand it the original stream data, which we
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// get from copied_streams.
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if (! maybeReplace(og, orig, pipeline, nullptr))
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{
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// Since this only gets called for streams we already
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// determined we are replacing, a false return would indicate
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// a logic error.
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throw std::logic_error(
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"should_replace return false in provideStreamData");
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}
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}
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static void process(char const* infilename, char const* outfilename,
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bool decode_specialized)
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{
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QPDF qpdf;
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qpdf.processFile(infilename);
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// Create a single StreamReplacer instance. The interface requires
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// a PointerHolder in various places, so allocate a StreamReplacer
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// and stash it in a PointerHolder.
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StreamReplacer* replacer = new StreamReplacer(&qpdf);
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PointerHolder<QPDFObjectHandle::StreamDataProvider> p(replacer);
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for (auto& o: qpdf.getAllObjects())
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{
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if (o.isStream())
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{
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// Call registerStream for every stream. Only ones that
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// registerStream decides to replace will actually be
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// replaced.
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replacer->registerStream(o, p);
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}
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}
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QPDFWriter w(qpdf, outfilename);
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if (decode_specialized)
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{
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w.setDecodeLevel(qpdf_dl_specialized);
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}
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// For the test suite, use static IDs.
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w.setStaticID(true); // for testing only
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w.write();
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std::cout << whoami << ": new file written to " << outfilename
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<< std::endl;
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}
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static void usage()
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{
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std::cerr
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<< "\n"
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<< "Usage: " << whoami << " [ --decode-specialized ] infile outfile\n"
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<< std::endl;
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exit(2);
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}
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int main(int argc, char* argv[])
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{
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whoami = QUtil::getWhoami(argv[0]);
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// For libtool's sake....
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if (strncmp(whoami, "lt-", 3) == 0)
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{
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whoami += 3;
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}
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char const* infilename = 0;
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char const* outfilename = 0;
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bool decode_specialized = false;
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for (int i = 1; i < argc; ++i)
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{
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if (strcmp(argv[i], "--decode-specialized") == 0)
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{
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decode_specialized = true;
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}
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else if (! infilename)
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{
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infilename = argv[i];
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}
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else if (! outfilename)
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{
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outfilename = argv[i];
|
|
}
|
|
else
|
|
{
|
|
usage();
|
|
}
|
|
}
|
|
if (! (infilename && outfilename))
|
|
{
|
|
usage();
|
|
}
|
|
|
|
try
|
|
{
|
|
// Register our fictitious filter. This enables QPDFWriter to
|
|
// decode our streams. This is not a real filter, so no real
|
|
// PDF reading application would be able to interpret it. This
|
|
// is just for illustrative purposes.
|
|
QPDF::registerStreamFilter(
|
|
"/XORDecode", []{ return std::make_shared<SF_XORDecode>(); });
|
|
// Do the actual processing.
|
|
process(infilename, outfilename, decode_specialized);
|
|
}
|
|
catch (std::exception &e)
|
|
{
|
|
std::cerr << whoami << ": exception: " << e.what() << std::endl;
|
|
exit(2);
|
|
}
|
|
|
|
return 0;
|
|
}
|