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521 lines
18 KiB
C++
521 lines
18 KiB
C++
// algparam.h - originally written and placed in the public domain by Wei Dai
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/// \file algparam.h
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/// \brief Classes for working with NameValuePairs
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#ifndef CRYPTOPP_ALGPARAM_H
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#define CRYPTOPP_ALGPARAM_H
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#include "config.h"
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#include "cryptlib.h"
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#include "smartptr.h"
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#include "secblock.h"
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#include "integer.h"
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#include "misc.h"
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#include <string>
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#include <typeinfo>
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#include <exception>
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NAMESPACE_BEGIN(CryptoPP)
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/// \brief Used to pass byte array input as part of a NameValuePairs object
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class ConstByteArrayParameter
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{
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public:
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/// \brief Construct a ConstByteArrayParameter
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/// \param data a C-String
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/// \param deepCopy flag indicating whether the data should be copied
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/// \details The deepCopy option is used when the NameValuePairs object can't
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/// keep a copy of the data available
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ConstByteArrayParameter(const char *data = NULLPTR, bool deepCopy = false)
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: m_deepCopy(false), m_data(NULLPTR), m_size(0)
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{
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Assign(reinterpret_cast<const byte *>(data), data ? strlen(data) : 0, deepCopy);
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}
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/// \brief Construct a ConstByteArrayParameter
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/// \param data a memory buffer
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/// \param size the length of the memory buffer
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/// \param deepCopy flag indicating whether the data should be copied
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/// \details The deepCopy option is used when the NameValuePairs object can't
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/// keep a copy of the data available
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ConstByteArrayParameter(const byte *data, size_t size, bool deepCopy = false)
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: m_deepCopy(false), m_data(NULLPTR), m_size(0)
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{
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Assign(data, size, deepCopy);
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}
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/// \brief Construct a ConstByteArrayParameter
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/// \tparam T a std::basic_string<char> or std::vector<byte> class
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/// \param string a std::basic_string<char> or std::vector<byte> object
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/// \param deepCopy flag indicating whether the data should be copied
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/// \details The deepCopy option is used when the NameValuePairs object can't
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/// keep a copy of the data available
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template <class T> ConstByteArrayParameter(const T &string, bool deepCopy = false)
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: m_deepCopy(false), m_data(NULLPTR), m_size(0)
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{
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CRYPTOPP_COMPILE_ASSERT(sizeof(typename T::value_type) == 1);
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Assign(reinterpret_cast<const byte *>(&string[0]), string.size(), deepCopy);
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}
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/// \brief Assign contents from a memory buffer
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/// \param data a memory buffer
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/// \param size the length of the memory buffer
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/// \param deepCopy flag indicating whether the data should be copied
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/// \details The deepCopy option is used when the NameValuePairs object can't
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/// keep a copy of the data available
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void Assign(const byte *data, size_t size, bool deepCopy)
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{
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// This fires, which means: no data with a size, or data with no size.
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// CRYPTOPP_ASSERT((data && size) || !(data || size));
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if (deepCopy)
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m_block.Assign(data, size);
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else
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{
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m_data = data;
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m_size = size;
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}
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m_deepCopy = deepCopy;
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}
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/// \brief Pointer to the first byte in the memory block
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const byte *begin() const {return m_deepCopy ? m_block.begin() : m_data;}
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/// \brief Pointer beyond the last byte in the memory block
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const byte *end() const {return m_deepCopy ? m_block.end() : m_data + m_size;}
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/// \brief Length of the memory block
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size_t size() const {return m_deepCopy ? m_block.size() : m_size;}
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private:
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bool m_deepCopy;
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const byte *m_data;
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size_t m_size;
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SecByteBlock m_block;
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};
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/// \brief Used to pass byte array input as part of a NameValuePairs object
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class ByteArrayParameter
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{
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public:
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/// \brief Construct a ByteArrayParameter
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/// \param data a memory buffer
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/// \param size the length of the memory buffer
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ByteArrayParameter(byte *data = NULLPTR, unsigned int size = 0)
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: m_data(data), m_size(size) {}
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/// \brief Construct a ByteArrayParameter
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/// \param block a SecByteBlock
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ByteArrayParameter(SecByteBlock &block)
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: m_data(block.begin()), m_size(block.size()) {}
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/// \brief Pointer to the first byte in the memory block
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byte *begin() const {return m_data;}
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/// \brief Pointer beyond the last byte in the memory block
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byte *end() const {return m_data + m_size;}
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/// \brief Length of the memory block
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size_t size() const {return m_size;}
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private:
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byte *m_data;
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size_t m_size;
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};
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/// \brief Combines two sets of NameValuePairs
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/// \details CombinedNameValuePairs allows you to provide two sets of of NameValuePairs.
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/// If a name is not found in the first set, then the second set is searched for the
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/// name and value pair. The second set of NameValuePairs often provides default values.
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class CRYPTOPP_DLL CombinedNameValuePairs : public NameValuePairs
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{
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public:
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/// \brief Construct a CombinedNameValuePairs
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/// \param pairs1 reference to the first set of NameValuePairs
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/// \param pairs2 reference to the second set of NameValuePairs
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CombinedNameValuePairs(const NameValuePairs &pairs1, const NameValuePairs &pairs2)
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: m_pairs1(pairs1), m_pairs2(pairs2) {}
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bool GetVoidValue(const char *name, const std::type_info &valueType, void *pValue) const;
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private:
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const NameValuePairs &m_pairs1, &m_pairs2;
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};
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#ifndef CRYPTOPP_DOXYGEN_PROCESSING
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template <class T, class BASE>
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class GetValueHelperClass
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{
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public:
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GetValueHelperClass(const T *pObject, const char *name, const std::type_info &valueType, void *pValue, const NameValuePairs *searchFirst)
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: m_pObject(pObject), m_name(name), m_valueType(&valueType), m_pValue(pValue), m_found(false), m_getValueNames(false)
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{
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if (strcmp(m_name, "ValueNames") == 0)
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{
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m_found = m_getValueNames = true;
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NameValuePairs::ThrowIfTypeMismatch(m_name, typeid(std::string), *m_valueType);
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if (searchFirst)
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searchFirst->GetVoidValue(m_name, valueType, pValue);
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if (typeid(T) != typeid(BASE))
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pObject->BASE::GetVoidValue(m_name, valueType, pValue);
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((*reinterpret_cast<std::string *>(m_pValue) += "ThisPointer:") += typeid(T).name()) += ';';
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}
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if (!m_found && strncmp(m_name, "ThisPointer:", 12) == 0 && strcmp(m_name+12, typeid(T).name()) == 0)
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{
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NameValuePairs::ThrowIfTypeMismatch(m_name, typeid(T *), *m_valueType);
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*reinterpret_cast<const T **>(pValue) = pObject;
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m_found = true;
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return;
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}
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if (!m_found && searchFirst)
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m_found = searchFirst->GetVoidValue(m_name, valueType, pValue);
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if (!m_found && typeid(T) != typeid(BASE))
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m_found = pObject->BASE::GetVoidValue(m_name, valueType, pValue);
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}
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operator bool() const {return m_found;}
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template <class R>
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GetValueHelperClass<T,BASE> & operator()(const char *name, const R & (T::*pm)() const)
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{
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if (m_getValueNames)
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(*reinterpret_cast<std::string *>(m_pValue) += name) += ";";
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if (!m_found && strcmp(name, m_name) == 0)
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{
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NameValuePairs::ThrowIfTypeMismatch(name, typeid(R), *m_valueType);
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*reinterpret_cast<R *>(m_pValue) = (m_pObject->*pm)();
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m_found = true;
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}
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return *this;
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}
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GetValueHelperClass<T,BASE> &Assignable()
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{
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#ifndef __INTEL_COMPILER // ICL 9.1 workaround: Intel compiler copies the vTable pointer for some reason
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if (m_getValueNames)
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((*reinterpret_cast<std::string *>(m_pValue) += "ThisObject:") += typeid(T).name()) += ';';
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if (!m_found && strncmp(m_name, "ThisObject:", 11) == 0 && strcmp(m_name+11, typeid(T).name()) == 0)
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{
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NameValuePairs::ThrowIfTypeMismatch(m_name, typeid(T), *m_valueType);
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*reinterpret_cast<T *>(m_pValue) = *m_pObject;
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m_found = true;
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}
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#endif
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return *this;
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}
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private:
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const T *m_pObject;
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const char *m_name;
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const std::type_info *m_valueType;
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void *m_pValue;
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bool m_found, m_getValueNames;
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};
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template <class BASE, class T>
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GetValueHelperClass<T, BASE> GetValueHelper(const T *pObject, const char *name, const std::type_info &valueType, void *pValue, const NameValuePairs *searchFirst=NULLPTR)
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{
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return GetValueHelperClass<T, BASE>(pObject, name, valueType, pValue, searchFirst);
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}
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template <class T>
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GetValueHelperClass<T, T> GetValueHelper(const T *pObject, const char *name, const std::type_info &valueType, void *pValue, const NameValuePairs *searchFirst=NULLPTR)
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{
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return GetValueHelperClass<T, T>(pObject, name, valueType, pValue, searchFirst);
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}
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// ********************************************************
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template <class T, class BASE>
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class AssignFromHelperClass
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{
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public:
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AssignFromHelperClass(T *pObject, const NameValuePairs &source)
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: m_pObject(pObject), m_source(source), m_done(false)
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{
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if (source.GetThisObject(*pObject))
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m_done = true;
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else if (typeid(BASE) != typeid(T))
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pObject->BASE::AssignFrom(source);
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}
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template <class R>
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AssignFromHelperClass & operator()(const char *name, void (T::*pm)(const R&))
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{
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if (!m_done)
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{
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R value;
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if (!m_source.GetValue(name, value))
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throw InvalidArgument(std::string(typeid(T).name()) + ": Missing required parameter '" + name + "'");
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(m_pObject->*pm)(value);
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}
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return *this;
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}
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template <class R, class S>
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AssignFromHelperClass & operator()(const char *name1, const char *name2, void (T::*pm)(const R&, const S&))
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{
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if (!m_done)
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{
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R value1;
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if (!m_source.GetValue(name1, value1))
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throw InvalidArgument(std::string(typeid(T).name()) + ": Missing required parameter '" + name1 + "'");
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S value2;
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if (!m_source.GetValue(name2, value2))
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throw InvalidArgument(std::string(typeid(T).name()) + ": Missing required parameter '" + name2 + "'");
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(m_pObject->*pm)(value1, value2);
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}
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return *this;
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}
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private:
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T *m_pObject;
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const NameValuePairs &m_source;
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bool m_done;
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};
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template <class BASE, class T>
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AssignFromHelperClass<T, BASE> AssignFromHelper(T *pObject, const NameValuePairs &source)
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{
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return AssignFromHelperClass<T, BASE>(pObject, source);
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}
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template <class T>
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AssignFromHelperClass<T, T> AssignFromHelper(T *pObject, const NameValuePairs &source)
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{
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return AssignFromHelperClass<T, T>(pObject, source);
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}
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#endif // CRYPTOPP_DOXYGEN_PROCESSING
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// ********************************************************
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#ifndef CRYPTOPP_NO_ASSIGN_TO_INTEGER
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// Allow the linker to discard Integer code if not needed.
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// Also see http://github.com/weidai11/cryptopp/issues/389.
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CRYPTOPP_DLL bool AssignIntToInteger(const std::type_info &valueType, void *pInteger, const void *pInt);
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#endif
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CRYPTOPP_DLL const std::type_info & CRYPTOPP_API IntegerTypeId();
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/// \brief Base class for AlgorithmParameters
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class CRYPTOPP_DLL AlgorithmParametersBase
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{
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public:
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/// \brief Exception thrown when an AlgorithmParameter is unused
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class ParameterNotUsed : public Exception
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{
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public:
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ParameterNotUsed(const char *name) : Exception(OTHER_ERROR, std::string("AlgorithmParametersBase: parameter \"") + name + "\" not used") {}
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};
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virtual ~AlgorithmParametersBase() CRYPTOPP_THROW
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{
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#if defined(CRYPTOPP_CXX17_UNCAUGHT_EXCEPTIONS)
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if (std::uncaught_exceptions() == 0)
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#elif defined(CRYPTOPP_CXX98_UNCAUGHT_EXCEPTION)
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if (std::uncaught_exception() == false)
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#else
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try
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#endif
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{
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if (m_throwIfNotUsed && !m_used)
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throw ParameterNotUsed(m_name);
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}
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#if !defined(CRYPTOPP_CXX98_UNCAUGHT_EXCEPTION)
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# if !defined(CRYPTOPP_CXX17_UNCAUGHT_EXCEPTIONS)
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catch(const Exception&)
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{
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}
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# endif
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#endif
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}
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// this is actually a move, not a copy
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AlgorithmParametersBase(const AlgorithmParametersBase &x)
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: m_name(x.m_name), m_throwIfNotUsed(x.m_throwIfNotUsed), m_used(x.m_used)
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{
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m_next.reset(const_cast<AlgorithmParametersBase &>(x).m_next.release());
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x.m_used = true;
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}
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/// \brief Construct a AlgorithmParametersBase
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/// \param name the parameter name
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/// \param throwIfNotUsed flags indicating whether an exception should be thrown
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/// \details If throwIfNotUsed is true, then a ParameterNotUsed exception
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/// will be thrown in the destructor if the parameter is not not retrieved.
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AlgorithmParametersBase(const char *name, bool throwIfNotUsed)
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: m_name(name), m_throwIfNotUsed(throwIfNotUsed), m_used(false) {}
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bool GetVoidValue(const char *name, const std::type_info &valueType, void *pValue) const;
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protected:
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friend class AlgorithmParameters;
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void operator=(const AlgorithmParametersBase& rhs); // assignment not allowed, declare this for VC60
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virtual void AssignValue(const char *name, const std::type_info &valueType, void *pValue) const =0;
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virtual void MoveInto(void *p) const =0; // not really const
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const char *m_name;
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bool m_throwIfNotUsed;
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mutable bool m_used;
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member_ptr<AlgorithmParametersBase> m_next;
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};
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/// \brief Template base class for AlgorithmParameters
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/// \tparam T the class or type
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template <class T>
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class AlgorithmParametersTemplate : public AlgorithmParametersBase
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{
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public:
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/// \brief Construct an AlgorithmParametersTemplate
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/// \param name the name of the value
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/// \param value a reference to the value
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/// \param throwIfNotUsed flags indicating whether an exception should be thrown
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/// \details If throwIfNotUsed is true, then a ParameterNotUsed exception
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/// will be thrown in the destructor if the parameter is not not retrieved.
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AlgorithmParametersTemplate(const char *name, const T &value, bool throwIfNotUsed)
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: AlgorithmParametersBase(name, throwIfNotUsed), m_value(value)
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{
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}
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void AssignValue(const char *name, const std::type_info &valueType, void *pValue) const
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{
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#ifndef CRYPTOPP_NO_ASSIGN_TO_INTEGER
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// Special case for retrieving an Integer parameter when an int was passed in
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if (!(typeid(T) == typeid(int) && AssignIntToInteger(valueType, pValue, &m_value)))
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#endif
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{
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NameValuePairs::ThrowIfTypeMismatch(name, typeid(T), valueType);
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*reinterpret_cast<T *>(pValue) = m_value;
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}
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}
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#if defined(DEBUG_NEW) && (_MSC_VER >= 1300)
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# pragma push_macro("new")
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# undef new
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#endif
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void MoveInto(void *buffer) const
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{
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AlgorithmParametersTemplate<T>* p = new(buffer) AlgorithmParametersTemplate<T>(*this);
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CRYPTOPP_UNUSED(p); // silence warning
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}
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#if defined(DEBUG_NEW) && (_MSC_VER >= 1300)
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# pragma pop_macro("new")
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#endif
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protected:
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T m_value;
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};
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CRYPTOPP_DLL_TEMPLATE_CLASS AlgorithmParametersTemplate<bool>;
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CRYPTOPP_DLL_TEMPLATE_CLASS AlgorithmParametersTemplate<int>;
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CRYPTOPP_DLL_TEMPLATE_CLASS AlgorithmParametersTemplate<ConstByteArrayParameter>;
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/// \brief An object that implements NameValuePairs
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/// \note A NameValuePairs object containing an arbitrary number of name value pairs may be constructed by
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/// repeatedly using operator() on the object returned by MakeParameters, for example:
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/// <pre>
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/// AlgorithmParameters parameters = MakeParameters(name1, value1)(name2, value2)(name3, value3);
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/// </pre>
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class CRYPTOPP_DLL AlgorithmParameters : public NameValuePairs
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{
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public:
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/// \brief Construct a AlgorithmParameters
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/// \note A NameValuePairs object containing an arbitrary number of name value pairs may be constructed by
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/// repeatedly using operator() on the object returned by MakeParameters, for example:
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/// <pre>
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/// AlgorithmParameters parameters = MakeParameters(name1, value1)(name2, value2)(name3, value3);
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/// </pre>
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AlgorithmParameters();
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#ifdef __BORLANDC__
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/// \brief Construct a AlgorithmParameters
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/// \tparam T the class or type
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/// \param name the name of the object or value to retrieve
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/// \param value reference to a variable that receives the value
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/// \param throwIfNotUsed if true, the object will throw an exception if the value is not accessed
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/// \note throwIfNotUsed is ignored if using a compiler that does not support std::uncaught_exception(),
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/// such as MSVC 7.0 and earlier.
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/// \note A NameValuePairs object containing an arbitrary number of name value pairs may be constructed by
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/// repeatedly using operator() on the object returned by MakeParameters, for example:
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/// <pre>
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/// AlgorithmParameters parameters = MakeParameters(name1, value1)(name2, value2)(name3, value3);
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/// </pre>
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template <class T>
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AlgorithmParameters(const char *name, const T &value, bool throwIfNotUsed=true)
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: m_next(new AlgorithmParametersTemplate<T>(name, value, throwIfNotUsed))
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, m_defaultThrowIfNotUsed(throwIfNotUsed)
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{
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}
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#endif
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AlgorithmParameters(const AlgorithmParameters &x);
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AlgorithmParameters & operator=(const AlgorithmParameters &x);
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/// \tparam T the class or type
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/// \param name the name of the object or value to retrieve
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/// \param value reference to a variable that receives the value
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/// \param throwIfNotUsed if true, the object will throw an exception if the value is not accessed
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template <class T>
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AlgorithmParameters & operator()(const char *name, const T &value, bool throwIfNotUsed)
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{
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member_ptr<AlgorithmParametersBase> p(new AlgorithmParametersTemplate<T>(name, value, throwIfNotUsed));
|
|
p->m_next.reset(m_next.release());
|
|
m_next.reset(p.release());
|
|
m_defaultThrowIfNotUsed = throwIfNotUsed;
|
|
return *this;
|
|
}
|
|
|
|
/// \brief Appends a NameValuePair to a collection of NameValuePairs
|
|
/// \tparam T the class or type
|
|
/// \param name the name of the object or value to retrieve
|
|
/// \param value reference to a variable that receives the value
|
|
template <class T>
|
|
AlgorithmParameters & operator()(const char *name, const T &value)
|
|
{
|
|
return operator()(name, value, m_defaultThrowIfNotUsed);
|
|
}
|
|
|
|
bool GetVoidValue(const char *name, const std::type_info &valueType, void *pValue) const;
|
|
|
|
protected:
|
|
member_ptr<AlgorithmParametersBase> m_next;
|
|
bool m_defaultThrowIfNotUsed;
|
|
};
|
|
|
|
/// \brief Create an object that implements NameValuePairs
|
|
/// \tparam T the class or type
|
|
/// \param name the name of the object or value to retrieve
|
|
/// \param value reference to a variable that receives the value
|
|
/// \param throwIfNotUsed if true, the object will throw an exception if the value is not accessed
|
|
/// \note throwIfNotUsed is ignored if using a compiler that does not support std::uncaught_exception(),
|
|
/// such as MSVC 7.0 and earlier.
|
|
/// \note A NameValuePairs object containing an arbitrary number of name value pairs may be constructed by
|
|
/// repeatedly using \p operator() on the object returned by \p MakeParameters, for example:
|
|
/// <pre>
|
|
/// AlgorithmParameters parameters = MakeParameters(name1, value1)(name2, value2)(name3, value3);
|
|
/// </pre>
|
|
#ifdef __BORLANDC__
|
|
typedef AlgorithmParameters MakeParameters;
|
|
#else
|
|
template <class T>
|
|
AlgorithmParameters MakeParameters(const char *name, const T &value, bool throwIfNotUsed = true)
|
|
{
|
|
return AlgorithmParameters()(name, value, throwIfNotUsed);
|
|
}
|
|
#endif
|
|
|
|
#define CRYPTOPP_GET_FUNCTION_ENTRY(name) (Name::name(), &ThisClass::Get##name)
|
|
#define CRYPTOPP_SET_FUNCTION_ENTRY(name) (Name::name(), &ThisClass::Set##name)
|
|
#define CRYPTOPP_SET_FUNCTION_ENTRY2(name1, name2) (Name::name1(), Name::name2(), &ThisClass::Set##name1##And##name2)
|
|
|
|
NAMESPACE_END
|
|
|
|
#endif
|