mirror of
https://github.com/shadps4-emu/ext-cryptopp.git
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376 lines
17 KiB
C++
376 lines
17 KiB
C++
// simple.h - originally written and placed in the public domain by Wei Dai
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/// \file simple.h
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/// \brief Classes providing basic library services.
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#ifndef CRYPTOPP_SIMPLE_H
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#define CRYPTOPP_SIMPLE_H
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#include "config.h"
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#if CRYPTOPP_MSC_VERSION
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# pragma warning(push)
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# pragma warning(disable: 4127 4189)
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#endif
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#include "cryptlib.h"
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#include "misc.h"
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NAMESPACE_BEGIN(CryptoPP)
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/// \class ClonableImpl
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/// \brief Base class for identifying alogorithm
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/// \tparam BASE base class from which to derive
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/// \tparam DERIVED class which to clone
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template <class DERIVED, class BASE>
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class CRYPTOPP_NO_VTABLE ClonableImpl : public BASE
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{
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public:
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Clonable * Clone() const {return new DERIVED(*static_cast<const DERIVED *>(this));}
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};
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/// \class AlgorithmImpl
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/// \brief Base class information
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/// \tparam BASE an Algorithm derived class
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/// \tparam ALGORITHM_INFO an Algorithm derived class
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/// \details AlgorithmImpl provides StaticAlgorithmName from the template parameter BASE
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template <class BASE, class ALGORITHM_INFO=BASE>
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class CRYPTOPP_NO_VTABLE AlgorithmImpl : public BASE
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{
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public:
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/// \brief The algorithm name
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/// \returns the algorithm name
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/// \details StaticAlgorithmName returns the algorithm's name as a static member function.
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/// The name is taken from information provided by BASE.
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static std::string CRYPTOPP_API StaticAlgorithmName() {return ALGORITHM_INFO::StaticAlgorithmName();}
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/// \brief The algorithm name
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/// \returns the algorithm name
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/// \details AlgorithmName returns the algorithm's name as a member function.
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/// The name is is acquired by calling StaticAlgorithmName.
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std::string AlgorithmName() const {return ALGORITHM_INFO::StaticAlgorithmName();}
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};
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/// \class InvalidKeyLength
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/// \brief Exception thrown when an invalid key length is encountered
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class CRYPTOPP_DLL InvalidKeyLength : public InvalidArgument
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{
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public:
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explicit InvalidKeyLength(const std::string &algorithm, size_t length) : InvalidArgument(algorithm + ": " + IntToString(length) + " is not a valid key length") {}
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};
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/// \class InvalidRounds
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/// \brief Exception thrown when an invalid number of rounds is encountered
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class CRYPTOPP_DLL InvalidRounds : public InvalidArgument
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{
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public:
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explicit InvalidRounds(const std::string &algorithm, unsigned int rounds) : InvalidArgument(algorithm + ": " + IntToString(rounds) + " is not a valid number of rounds") {}
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};
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/// \class InvalidBlockSize
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/// \brief Exception thrown when an invalid block size is encountered
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class CRYPTOPP_DLL InvalidBlockSize : public InvalidArgument
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{
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public:
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explicit InvalidBlockSize(const std::string &algorithm, size_t length) : InvalidArgument(algorithm + ": " + IntToString(length) + " is not a valid block size") {}
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};
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/// \class InvalidPersonalizationLength
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/// \brief Exception thrown when an invalid personalization string length is encountered
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class CRYPTOPP_DLL InvalidPersonalizationLength : public InvalidArgument
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{
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public:
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explicit InvalidPersonalizationLength(const std::string &algorithm, size_t length) : InvalidArgument(algorithm + ": " + IntToString(length) + " is not a valid salt length") {}
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};
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/// \class InvalidSaltLength
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/// \brief Exception thrown when an invalid salt length is encountered
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class CRYPTOPP_DLL InvalidSaltLength : public InvalidArgument
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{
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public:
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explicit InvalidSaltLength(const std::string &algorithm, size_t length) : InvalidArgument(algorithm + ": " + IntToString(length) + " is not a valid salt length") {}
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};
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// *****************************
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/// \class Bufferless
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/// \brief Base class for bufferless filters
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/// \tparam T the class or type
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template <class T>
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class CRYPTOPP_NO_VTABLE Bufferless : public T
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{
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public:
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bool IsolatedFlush(bool hardFlush, bool blocking)
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{CRYPTOPP_UNUSED(hardFlush); CRYPTOPP_UNUSED(blocking); return false;}
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};
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/// \class Unflushable
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/// \brief Base class for unflushable filters
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/// \tparam T the class or type
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template <class T>
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class CRYPTOPP_NO_VTABLE Unflushable : public T
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{
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public:
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bool Flush(bool completeFlush, int propagation=-1, bool blocking=true)
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{return ChannelFlush(DEFAULT_CHANNEL, completeFlush, propagation, blocking);}
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bool IsolatedFlush(bool hardFlush, bool blocking)
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{CRYPTOPP_UNUSED(hardFlush); CRYPTOPP_UNUSED(blocking); CRYPTOPP_ASSERT(false); return false;}
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bool ChannelFlush(const std::string &channel, bool hardFlush, int propagation=-1, bool blocking=true)
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{
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if (hardFlush && !InputBufferIsEmpty())
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throw CannotFlush("Unflushable<T>: this object has buffered input that cannot be flushed");
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else
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{
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BufferedTransformation *attached = this->AttachedTransformation();
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return attached && propagation ? attached->ChannelFlush(channel, hardFlush, propagation-1, blocking) : false;
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}
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}
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protected:
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virtual bool InputBufferIsEmpty() const {return false;}
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};
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/// \class InputRejecting
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/// \brief Base class for input rejecting filters
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/// \tparam T the class or type
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/// \details T should be a BufferedTransformation derived class
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template <class T>
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class CRYPTOPP_NO_VTABLE InputRejecting : public T
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{
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public:
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struct InputRejected : public NotImplemented
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{InputRejected() : NotImplemented("BufferedTransformation: this object doesn't allow input") {}};
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/// \name INPUT
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//@{
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/// \brief Input a byte array for processing
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/// \param inString the byte array to process
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/// \param length the size of the string, in bytes
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/// \param messageEnd means how many filters to signal MessageEnd() to, including this one
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/// \param blocking specifies whether the object should block when processing input
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/// \throws InputRejected
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/// \returns the number of bytes that remain in the block (i.e., bytes not processed)
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/// \details Internally, the default implementation throws InputRejected.
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size_t Put2(const byte *inString, size_t length, int messageEnd, bool blocking)
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{CRYPTOPP_UNUSED(inString); CRYPTOPP_UNUSED(length); CRYPTOPP_UNUSED(messageEnd); CRYPTOPP_UNUSED(blocking); throw InputRejected();}
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//@}
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/// \name SIGNALS
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//@{
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bool IsolatedFlush(bool hardFlush, bool blocking)
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{CRYPTOPP_UNUSED(hardFlush); CRYPTOPP_UNUSED(blocking); return false;}
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bool IsolatedMessageSeriesEnd(bool blocking)
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{CRYPTOPP_UNUSED(blocking); throw InputRejected();}
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size_t ChannelPut2(const std::string &channel, const byte *inString, size_t length, int messageEnd, bool blocking)
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{CRYPTOPP_UNUSED(channel); CRYPTOPP_UNUSED(inString); CRYPTOPP_UNUSED(length); CRYPTOPP_UNUSED(messageEnd); CRYPTOPP_UNUSED(blocking); throw InputRejected();}
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bool ChannelMessageSeriesEnd(const std::string& channel, int messageEnd, bool blocking)
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{CRYPTOPP_UNUSED(channel); CRYPTOPP_UNUSED(messageEnd); CRYPTOPP_UNUSED(blocking); throw InputRejected();}
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//@}
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};
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/// \class CustomFlushPropagation
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/// \brief Interface for custom flush signals propagation
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/// \tparam T BufferedTransformation derived class
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template <class T>
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class CRYPTOPP_NO_VTABLE CustomFlushPropagation : public T
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{
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public:
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/// \name SIGNALS
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//@{
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/// \brief Flush buffered input and/or output, with signal propagation
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/// \param hardFlush is used to indicate whether all data should be flushed
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/// \param propagation the number of attached transformations the Flush() signal should be passed
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/// \param blocking specifies whether the object should block when processing input
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/// \details propagation count includes this object. Setting propagation to <tt>1</tt> means this
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/// object only. Setting propagation to <tt>-1</tt> means unlimited propagation.
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/// \note Hard flushes must be used with care. It means try to process and output everything, even if
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/// there may not be enough data to complete the action. For example, hard flushing a HexDecoder
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/// would cause an error if you do it after inputing an odd number of hex encoded characters.
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/// \note For some types of filters, like ZlibDecompressor, hard flushes can only
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/// be done at "synchronization points". These synchronization points are positions in the data
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/// stream that are created by hard flushes on the corresponding reverse filters, in this
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/// example ZlibCompressor. This is useful when zlib compressed data is moved across a
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/// network in packets and compression state is preserved across packets, as in the SSH2 protocol.
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virtual bool Flush(bool hardFlush, int propagation=-1, bool blocking=true) =0;
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//@}
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private:
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bool IsolatedFlush(bool hardFlush, bool blocking)
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{CRYPTOPP_UNUSED(hardFlush); CRYPTOPP_UNUSED(blocking); CRYPTOPP_ASSERT(false); return false;}
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};
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/// \class CustomSignalPropagation
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/// \brief Interface for custom flush signals
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/// \tparam T BufferedTransformation derived class
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template <class T>
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class CRYPTOPP_NO_VTABLE CustomSignalPropagation : public CustomFlushPropagation<T>
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{
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public:
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/// \brief Initialize or reinitialize this object, with signal propagation
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/// \param parameters a set of NameValuePairs to initialize or reinitialize this object
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/// \param propagation the number of attached transformations the Initialize() signal should be passed
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/// \details Initialize() is used to initialize or reinitialize an object using a variable number of
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/// arbitrarily typed arguments. The function avoids the need for multiple constructors providing
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/// all possible combintations of configurable parameters.
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/// \details propagation count includes this object. Setting propagation to <tt>1</tt> means this
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/// object only. Setting propagation to <tt>-1</tt> means unlimited propagation.
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virtual void Initialize(const NameValuePairs ¶meters=g_nullNameValuePairs, int propagation=-1) =0;
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private:
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void IsolatedInitialize(const NameValuePairs ¶meters)
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{CRYPTOPP_UNUSED(parameters); CRYPTOPP_ASSERT(false);}
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};
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/// \class Multichannel
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/// \brief Multiple channels support for custom signal processing
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/// \tparam T the class or type
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/// \details T should be a BufferedTransformation derived class
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template <class T>
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class CRYPTOPP_NO_VTABLE Multichannel : public CustomFlushPropagation<T>
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{
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public:
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bool Flush(bool hardFlush, int propagation=-1, bool blocking=true)
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{return this->ChannelFlush(DEFAULT_CHANNEL, hardFlush, propagation, blocking);}
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/// \brief Marks the end of a series of messages, with signal propagation
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/// \param propagation the number of attached transformations the MessageSeriesEnd() signal should be passed
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/// \param blocking specifies whether the object should block when processing input
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/// \details Each object that receives the signal will perform its processing, decrement
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/// propagation, and then pass the signal on to attached transformations if the value is not 0.
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/// \details propagation count includes this object. Setting propagation to <tt>1</tt> means this
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/// object only. Setting propagation to <tt>-1</tt> means unlimited propagation.
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/// \note There should be a MessageEnd() immediately before MessageSeriesEnd().
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bool MessageSeriesEnd(int propagation=-1, bool blocking=true)
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{return this->ChannelMessageSeriesEnd(DEFAULT_CHANNEL, propagation, blocking);}
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/// \brief Request space which can be written into by the caller
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/// \param size the requested size of the buffer
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/// \details The purpose of this method is to help avoid extra memory allocations.
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/// \details size is an \a IN and \a OUT parameter and used as a hint. When the call is made,
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/// size is the requested size of the buffer. When the call returns, size is the size of
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/// the array returned to the caller.
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/// \details The base class implementation sets size to 0 and returns NULL.
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/// \note Some objects, like ArraySink, cannot create a space because its fixed. In the case of
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/// an ArraySink, the pointer to the array is returned and the size is remaining size.
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byte * CreatePutSpace(size_t &size)
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{return this->ChannelCreatePutSpace(DEFAULT_CHANNEL, size);}
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/// \brief Input multiple bytes for processing
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/// \param inString the byte buffer to process
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/// \param length the size of the string, in bytes
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/// \param messageEnd means how many filters to signal MessageEnd() to, including this one
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/// \param blocking specifies whether the object should block when processing input
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/// \details Derived classes must implement Put2().
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size_t Put2(const byte *inString, size_t length, int messageEnd, bool blocking)
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{return this->ChannelPut2(DEFAULT_CHANNEL, inString, length, messageEnd, blocking);}
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/// \brief Input multiple bytes that may be modified by callee.
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/// \param inString the byte buffer to process.
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/// \param length the size of the string, in bytes.
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/// \param messageEnd means how many filters to signal MessageEnd() to, including this one.
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/// \param blocking specifies whether the object should block when processing input.
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/// \details Internally, PutModifiable2() calls Put2().
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size_t PutModifiable2(byte *inString, size_t length, int messageEnd, bool blocking)
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{return this->ChannelPutModifiable2(DEFAULT_CHANNEL, inString, length, messageEnd, blocking);}
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// void ChannelMessageSeriesEnd(const std::string &channel, int propagation=-1)
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// {PropagateMessageSeriesEnd(propagation, channel);}
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byte * ChannelCreatePutSpace(const std::string &channel, size_t &size)
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{CRYPTOPP_UNUSED(channel); size = 0; return NULLPTR;}
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bool ChannelPutModifiable(const std::string &channel, byte *inString, size_t length)
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{this->ChannelPut(channel, inString, length); return false;}
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virtual size_t ChannelPut2(const std::string &channel, const byte *begin, size_t length, int messageEnd, bool blocking) =0;
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size_t ChannelPutModifiable2(const std::string &channel, byte *begin, size_t length, int messageEnd, bool blocking)
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{return ChannelPut2(channel, begin, length, messageEnd, blocking);}
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virtual bool ChannelFlush(const std::string &channel, bool hardFlush, int propagation=-1, bool blocking=true) =0;
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};
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/// \class AutoSignaling
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/// \brief Provides auto signaling support
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/// \tparam T BufferedTransformation derived class
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template <class T>
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class CRYPTOPP_NO_VTABLE AutoSignaling : public T
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{
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public:
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/// \brief Construct an AutoSignaling
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/// \param propagation the propagation count
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AutoSignaling(int propagation=-1) : m_autoSignalPropagation(propagation) {}
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void SetAutoSignalPropagation(int propagation)
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{m_autoSignalPropagation = propagation;}
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int GetAutoSignalPropagation() const
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{return m_autoSignalPropagation;}
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private:
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int m_autoSignalPropagation;
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};
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/// \class Store
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/// \brief Acts as a Source for pre-existing, static data
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class CRYPTOPP_DLL CRYPTOPP_NO_VTABLE Store : public AutoSignaling<InputRejecting<BufferedTransformation> >
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{
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public:
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/// \brief Construct a Store
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Store() : m_messageEnd(false) {}
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void IsolatedInitialize(const NameValuePairs ¶meters)
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{
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m_messageEnd = false;
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StoreInitialize(parameters);
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}
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unsigned int NumberOfMessages() const {return m_messageEnd ? 0 : 1;}
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bool GetNextMessage();
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unsigned int CopyMessagesTo(BufferedTransformation &target, unsigned int count=UINT_MAX, const std::string &channel=DEFAULT_CHANNEL) const;
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protected:
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virtual void StoreInitialize(const NameValuePairs ¶meters) =0;
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bool m_messageEnd;
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};
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/// \class Sink
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/// \brief Implementation of BufferedTransformation's attachment interface
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/// \details Sink is a cornerstone of the Pipeline trinitiy. Data flows from
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/// Sources, through Filters, and then terminates in Sinks. The difference
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/// between a Source and Filter is a Source \a pumps data, while a Filter does
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/// not. The difference between a Filter and a Sink is a Filter allows an
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/// attached transformation, while a Sink does not.
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/// \details A Sink doesnot produce any retrievable output.
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/// \details See the discussion of BufferedTransformation in cryptlib.h for
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/// more details.
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class CRYPTOPP_DLL CRYPTOPP_NO_VTABLE Sink : public BufferedTransformation
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{
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public:
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size_t TransferTo2(BufferedTransformation &target, lword &transferBytes, const std::string &channel=DEFAULT_CHANNEL, bool blocking=true)
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{CRYPTOPP_UNUSED(target); CRYPTOPP_UNUSED(transferBytes); CRYPTOPP_UNUSED(channel); CRYPTOPP_UNUSED(blocking); transferBytes = 0; return 0;}
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size_t CopyRangeTo2(BufferedTransformation &target, lword &begin, lword end=LWORD_MAX, const std::string &channel=DEFAULT_CHANNEL, bool blocking=true) const
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{CRYPTOPP_UNUSED(target); CRYPTOPP_UNUSED(begin); CRYPTOPP_UNUSED(end); CRYPTOPP_UNUSED(channel); CRYPTOPP_UNUSED(blocking); return 0;}
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};
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/// \class BitBucket
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/// \brief Acts as an input discarding Filter or Sink
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/// \details The BitBucket discards all input and returns 0 to the caller
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/// to indicate all data was processed.
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class CRYPTOPP_DLL BitBucket : public Bufferless<Sink>
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{
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public:
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std::string AlgorithmName() const {return "BitBucket";}
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void IsolatedInitialize(const NameValuePairs ¶ms)
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{CRYPTOPP_UNUSED(params);}
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size_t Put2(const byte *inString, size_t length, int messageEnd, bool blocking)
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{CRYPTOPP_UNUSED(inString); CRYPTOPP_UNUSED(length); CRYPTOPP_UNUSED(messageEnd); CRYPTOPP_UNUSED(blocking); return 0;}
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};
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NAMESPACE_END
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#if CRYPTOPP_MSC_VERSION
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# pragma warning(pop)
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#endif
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#endif
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