src/encoding/block-helpers.hpp - ndn-cxx - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /*
  * Copyright (c) 2013-2017 Regents of the University of California.
  *
  * This file is part of ndn-cxx library (NDN C++ library with eXperimental eXtensions).
  *
  * ndn-cxx library is free software: you can redistribute it and/or modify it under the
  * terms of the GNU Lesser General Public License as published by the Free Software
  * Foundation, either version 3 of the License, or (at your option) any later version.
  *
  * ndn-cxx library is distributed in the hope that it will be useful, but WITHOUT ANY
  * WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
  * PARTICULAR PURPOSE.  See the GNU Lesser General Public License for more details.
  *
  * You should have received copies of the GNU General Public License and GNU Lesser
  * General Public License along with ndn-cxx, e.g., in COPYING.md file.  If not, see
  * <http://www.gnu.org/licenses/>.
  *
  * See AUTHORS.md for complete list of ndn-cxx authors and contributors.
  */

 #ifndef NDN_ENCODING_BLOCK_HELPERS_HPP
 #define NDN_ENCODING_BLOCK_HELPERS_HPP

 #include "block.hpp"
 #include "encoding-buffer.hpp"
 #include "../util/concepts.hpp"

 namespace ndn {
 namespace encoding {

 /** @brief Prepend a TLV element containing a non-negative integer
  *  @param encoder an EncodingBuffer or EncodingEstimator
  *  @param type TLV-TYPE number
  *  @param value non-negative integer value
  *  @sa makeNonNegativeIntegerBlock, readNonNegativeInteger
  */
 template<Tag TAG>
 size_t
 prependNonNegativeIntegerBlock(EncodingImpl<TAG>& encoder, uint32_t type, uint64_t value);

 extern template size_t
 prependNonNegativeIntegerBlock<EstimatorTag>(EncodingImpl<EstimatorTag>&, uint32_t, uint64_t);

 extern template size_t
 prependNonNegativeIntegerBlock<EncoderTag>(EncodingImpl<EncoderTag>&, uint32_t, uint64_t);

 /** @brief Create a TLV block containing a non-negative integer
  *  @param type TLV-TYPE number
  *  @param value non-negative integer value
  *  @sa prependNonNegativeIntegerBlock, readNonNegativeInteger
  */
 Block
 makeNonNegativeIntegerBlock(uint32_t type, uint64_t value);

 /** @brief Read a non-negative integer from a TLV element
  *  @param block the TLV element
  *  @throw tlv::Error block does not contain a non-negative integer
  *  @sa prependNonNegativeIntegerBlock, makeNonNegativeIntegerBlock
  */
 uint64_t
 readNonNegativeInteger(const Block& block);

 /** @brief Read a non-negative integer from a TLV element and cast to the specified type
  *  @tparam R result type, must be an integral type
  *  @param block the TLV element
  *  @throw tlv::Error block does not contain a valid non-negative integer or the number cannot be
  *                    represented in R
  */
 template<typename R>
 typename std::enable_if<std::is_integral<R>::value, R>::type
 readNonNegativeIntegerAs(const Block& block)
 {
   uint64_t value = readNonNegativeInteger(block);
   if (value > std::numeric_limits<R>::max()) {
     BOOST_THROW_EXCEPTION(tlv::Error("Value in TLV element of type " + to_string(block.type()) +
                           " is too large"));
   }
   return static_cast<R>(value);
 }

 /** @brief Read a non-negative integer from a TLV element and cast to the specified type
  *  @tparam R result type, must be an enumeration type
  *  @param block the TLV element
  *  @throw tlv::Error block does not contain a valid non-negative integer or the number cannot be
  *                    represented in R
  *  @warning If R is an unscoped enum type, it must have a fixed underlying type. Otherwise, this
  *           function may trigger unspecified behavior.
  */
 template<typename R>
 typename std::enable_if<std::is_enum<R>::value, R>::type
 readNonNegativeIntegerAs(const Block& block)
 {
   return static_cast<R>(readNonNegativeIntegerAs<typename std::underlying_type<R>::type>(block));
 }

 /** @brief Prepend an empty TLV element
  *  @param encoder an EncodingBuffer or EncodingEstimator
  *  @param type TLV-TYPE number
  *  @details The TLV element has zero-length TLV-VALUE.
  *  @sa makeEmptyBlock
  */
 template<Tag TAG>
 size_t
 prependEmptyBlock(EncodingImpl<TAG>& encoder, uint32_t type);

 extern template size_t
 prependEmptyBlock<EstimatorTag>(EncodingImpl<EstimatorTag>&, uint32_t);

 extern template size_t
 prependEmptyBlock<EncoderTag>(EncodingImpl<EncoderTag>&, uint32_t);

 /** @brief Create an empty TLV block
  *  @param type TLV-TYPE number
  *  @return A TLV block with zero-length TLV-VALUE
  *  @sa prependEmptyBlock
  */
 Block
 makeEmptyBlock(uint32_t type);

 /** @brief Prepend a TLV element containing a string.
  *  @param encoder an EncodingBuffer or EncodingEstimator
  *  @param type TLV-TYPE number
  *  @param value string value, may contain NUL octets
  *  @sa makeStringBlock, readString
  */
 template<Tag TAG>
 size_t
 prependStringBlock(EncodingImpl<TAG>& encoder, uint32_t type, const std::string& value);

 extern template size_t
 prependStringBlock<EstimatorTag>(EncodingImpl<EstimatorTag>&, uint32_t, const std::string&);

 extern template size_t
 prependStringBlock<EncoderTag>(EncodingImpl<EncoderTag>&, uint32_t, const std::string&);

 /** @brief Create a TLV block containing a string.
  *  @param type TLV-TYPE number
  *  @param value string value, may contain NUL octets
  *  @sa prependStringBlock, readString
  */
 Block
 makeStringBlock(uint32_t type, const std::string& value);

 /** @brief Read TLV-VALUE of a TLV element as a string.
  *  @param block the TLV element
  *  @return a string, may contain NUL octets
  *  @sa prependStringBlock, makeStringBlock
  */
 std::string
 readString(const Block& block);

 /** @brief Create a TLV block copying TLV-VALUE from raw buffer.
  *  @param type TLV-TYPE number
  *  @param value raw buffer as TLV-VALUE
  *  @param length length of value buffer
  *  @sa Encoder::prependByteArrayBlock
  */
 Block
 makeBinaryBlock(uint32_t type, const uint8_t* value, size_t length);

 /** @brief Create a TLV block copying TLV-VALUE from raw buffer.
  *  @param type TLV-TYPE number
  *  @param value raw buffer as TLV-VALUE
  *  @param length length of value buffer
  *  @sa Encoder::prependByteArrayBlock
  */
 Block
 makeBinaryBlock(uint32_t type, const char* value, size_t length);

 namespace detail {

 /** @brief Create a binary block copying from RandomAccessIterator
  */
 template<class Iterator>
 class BinaryBlockFast
 {
 public:
   BOOST_CONCEPT_ASSERT((boost::RandomAccessIterator<Iterator>));

   static Block
   makeBlock(uint32_t type, Iterator first, Iterator last)
   {
     EncodingEstimator estimator;
     size_t valueLength = last - first;
     size_t totalLength = valueLength;
     totalLength += estimator.prependVarNumber(valueLength);
     totalLength += estimator.prependVarNumber(type);

     EncodingBuffer encoder(totalLength, 0);
     encoder.prependRange(first, last);
     encoder.prependVarNumber(valueLength);
     encoder.prependVarNumber(type);

     return encoder.block();
   }
 };

 /** @brief Create a binary block copying from generic InputIterator
  */
 template<class Iterator>
 class BinaryBlockSlow
 {
 public:
   BOOST_CONCEPT_ASSERT((boost::InputIterator<Iterator>));

   static Block
   makeBlock(uint32_t type, Iterator first, Iterator last)
   {
     // reserve 4 bytes in front (common for 1(type)-3(length) encoding
     // Actual size will be adjusted as necessary by the encoder
     EncodingBuffer encoder(4, 4);
     size_t valueLength = encoder.appendRange(first, last);
     encoder.prependVarNumber(valueLength);
     encoder.prependVarNumber(type);

     return encoder.block();
   }
 };

 } // namespace detail

 /** @brief Create a TLV block copying TLV-VALUE from iterators.
  *  @tparam Iterator an InputIterator dereferencable to an 1-octet type; faster implementation is
  *                   available for RandomAccessIterator
  *  @param type TLV-TYPE number
  *  @param first begin iterator
  *  @param last past-the-end iterator
  */
 template<class Iterator>
 Block
 makeBinaryBlock(uint32_t type, Iterator first, Iterator last)
 {
   using BinaryBlockHelper = typename std::conditional<
     std::is_base_of<std::random_access_iterator_tag,
                     typename std::iterator_traits<Iterator>::iterator_category>::value,
     detail::BinaryBlockFast<Iterator>,
     detail::BinaryBlockSlow<Iterator>>::type;

   return BinaryBlockHelper::makeBlock(type, first, last);
 }

 /** @brief Prepend a TLV element containing a nested TLV element.
  *  @tparam U type that satisfies WireEncodableWithEncodingBuffer concept
  *  @param encoder an EncodingBuffer or EncodingEstimator
  *  @param type TLV-TYPE number for outer TLV element
  *  @param value an object to be encoded as inner TLV element
  *  @sa makeNestedBlock
  */
 template<Tag TAG, class U>
 size_t
 prependNestedBlock(EncodingImpl<TAG>& encoder, uint32_t type, const U& value)
 {
   BOOST_CONCEPT_ASSERT((WireEncodableWithEncodingBuffer<U>));

   size_t valueLength = value.wireEncode(encoder);
   size_t totalLength = valueLength;
   totalLength += encoder.prependVarNumber(valueLength);
   totalLength += encoder.prependVarNumber(type);

   return totalLength;
 }

 /** @brief Create a TLV block containing a nested TLV element.
  *  @tparam U type that satisfies WireEncodableWithEncodingBuffer concept
  *  @param type TLV-TYPE number for outer TLV element
  *  @param value an object to be encoded as inner TLV element
  *  @sa prependNestedBlock
  */
 template<class U>
 Block
 makeNestedBlock(uint32_t type, const U& value)
 {
   EncodingEstimator estimator;
   size_t totalLength = prependNestedBlock(estimator, type, value);

   EncodingBuffer encoder(totalLength, 0);
   prependNestedBlock(encoder, type, value);

   return encoder.block();
 }

 } // namespace encoding

 using encoding::makeNonNegativeIntegerBlock;
 using encoding::readNonNegativeInteger;
 using encoding::readNonNegativeIntegerAs;
 using encoding::makeEmptyBlock;
 using encoding::makeStringBlock;
 using encoding::readString;
 using encoding::makeBinaryBlock;
 using encoding::makeNestedBlock;

 } // namespace ndn

 #endif // NDN_ENCODING_BLOCK_HELPERS_HPP
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/*
	* Copyright (c) 2013-2017 Regents of the University of California.
	*
	* This file is part of ndn-cxx library (NDN C++ library with eXperimental eXtensions).
	*
	* ndn-cxx library is free software: you can redistribute it and/or modify it under the
	* terms of the GNU Lesser General Public License as published by the Free Software
	* Foundation, either version 3 of the License, or (at your option) any later version.
	*
	* ndn-cxx library is distributed in the hope that it will be useful, but WITHOUT ANY
	* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
	* PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.
	*
	* You should have received copies of the GNU General Public License and GNU Lesser
	* General Public License along with ndn-cxx, e.g., in COPYING.md file. If not, see
	* <http://www.gnu.org/licenses/>.
	*
	* See AUTHORS.md for complete list of ndn-cxx authors and contributors.
	*/

	#ifndef NDN_ENCODING_BLOCK_HELPERS_HPP
	#define NDN_ENCODING_BLOCK_HELPERS_HPP

	#include "block.hpp"
	#include "encoding-buffer.hpp"
	#include "../util/concepts.hpp"

	namespace ndn {
	namespace encoding {

	/** @brief Prepend a TLV element containing a non-negative integer
	* @param encoder an EncodingBuffer or EncodingEstimator
	* @param type TLV-TYPE number
	* @param value non-negative integer value
	* @sa makeNonNegativeIntegerBlock, readNonNegativeInteger
	*/
	template<Tag TAG>
	size_t
	prependNonNegativeIntegerBlock(EncodingImpl<TAG>& encoder, uint32_t type, uint64_t value);

	extern template size_t
	prependNonNegativeIntegerBlock<EstimatorTag>(EncodingImpl<EstimatorTag>&, uint32_t, uint64_t);

	extern template size_t
	prependNonNegativeIntegerBlock<EncoderTag>(EncodingImpl<EncoderTag>&, uint32_t, uint64_t);

	/** @brief Create a TLV block containing a non-negative integer
	* @param type TLV-TYPE number
	* @param value non-negative integer value
	* @sa prependNonNegativeIntegerBlock, readNonNegativeInteger
	*/
	Block
	makeNonNegativeIntegerBlock(uint32_t type, uint64_t value);

	/** @brief Read a non-negative integer from a TLV element
	* @param block the TLV element
	* @throw tlv::Error block does not contain a non-negative integer
	* @sa prependNonNegativeIntegerBlock, makeNonNegativeIntegerBlock
	*/
	uint64_t
	readNonNegativeInteger(const Block& block);

	/** @brief Read a non-negative integer from a TLV element and cast to the specified type
	* @tparam R result type, must be an integral type
	* @param block the TLV element
	* @throw tlv::Error block does not contain a valid non-negative integer or the number cannot be
	* represented in R
	*/
	template<typename R>
	typename std::enable_if<std::is_integral<R>::value, R>::type
	readNonNegativeIntegerAs(const Block& block)
	{
	uint64_t value = readNonNegativeInteger(block);
	if (value > std::numeric_limits<R>::max()) {
	BOOST_THROW_EXCEPTION(tlv::Error("Value in TLV element of type " + to_string(block.type()) +
	" is too large"));
	}
	return static_cast<R>(value);
	}

	/** @brief Read a non-negative integer from a TLV element and cast to the specified type
	* @tparam R result type, must be an enumeration type
	* @param block the TLV element
	* @throw tlv::Error block does not contain a valid non-negative integer or the number cannot be
	* represented in R
	* @warning If R is an unscoped enum type, it must have a fixed underlying type. Otherwise, this
	* function may trigger unspecified behavior.
	*/
	template<typename R>
	typename std::enable_if<std::is_enum<R>::value, R>::type
	readNonNegativeIntegerAs(const Block& block)
	{
	return static_cast<R>(readNonNegativeIntegerAs<typename std::underlying_type<R>::type>(block));
	}

	/** @brief Prepend an empty TLV element
	* @param encoder an EncodingBuffer or EncodingEstimator
	* @param type TLV-TYPE number
	* @details The TLV element has zero-length TLV-VALUE.
	* @sa makeEmptyBlock
	*/
	template<Tag TAG>
	size_t
	prependEmptyBlock(EncodingImpl<TAG>& encoder, uint32_t type);

	extern template size_t
	prependEmptyBlock<EstimatorTag>(EncodingImpl<EstimatorTag>&, uint32_t);

	extern template size_t
	prependEmptyBlock<EncoderTag>(EncodingImpl<EncoderTag>&, uint32_t);

	/** @brief Create an empty TLV block
	* @param type TLV-TYPE number
	* @return A TLV block with zero-length TLV-VALUE
	* @sa prependEmptyBlock
	*/
	Block
	makeEmptyBlock(uint32_t type);

	/** @brief Prepend a TLV element containing a string.
	* @param encoder an EncodingBuffer or EncodingEstimator
	* @param type TLV-TYPE number
	* @param value string value, may contain NUL octets
	* @sa makeStringBlock, readString
	*/
	template<Tag TAG>
	size_t
	prependStringBlock(EncodingImpl<TAG>& encoder, uint32_t type, const std::string& value);

	extern template size_t
	prependStringBlock<EstimatorTag>(EncodingImpl<EstimatorTag>&, uint32_t, const std::string&);

	extern template size_t
	prependStringBlock<EncoderTag>(EncodingImpl<EncoderTag>&, uint32_t, const std::string&);

	/** @brief Create a TLV block containing a string.
	* @param type TLV-TYPE number
	* @param value string value, may contain NUL octets
	* @sa prependStringBlock, readString
	*/
	Block
	makeStringBlock(uint32_t type, const std::string& value);

	/** @brief Read TLV-VALUE of a TLV element as a string.
	* @param block the TLV element
	* @return a string, may contain NUL octets
	* @sa prependStringBlock, makeStringBlock
	*/
	std::string
	readString(const Block& block);

	/** @brief Create a TLV block copying TLV-VALUE from raw buffer.
	* @param type TLV-TYPE number
	* @param value raw buffer as TLV-VALUE
	* @param length length of value buffer
	* @sa Encoder::prependByteArrayBlock
	*/
	Block
	makeBinaryBlock(uint32_t type, const uint8_t* value, size_t length);

	/** @brief Create a TLV block copying TLV-VALUE from raw buffer.
	* @param type TLV-TYPE number
	* @param value raw buffer as TLV-VALUE
	* @param length length of value buffer
	* @sa Encoder::prependByteArrayBlock
	*/
	Block
	makeBinaryBlock(uint32_t type, const char* value, size_t length);

	namespace detail {

	/** @brief Create a binary block copying from RandomAccessIterator
	*/
	template<class Iterator>
	class BinaryBlockFast
	{
	public:
	BOOST_CONCEPT_ASSERT((boost::RandomAccessIterator<Iterator>));

	static Block
	makeBlock(uint32_t type, Iterator first, Iterator last)
	{
	EncodingEstimator estimator;
	size_t valueLength = last - first;
	size_t totalLength = valueLength;
	totalLength += estimator.prependVarNumber(valueLength);
	totalLength += estimator.prependVarNumber(type);

	EncodingBuffer encoder(totalLength, 0);
	encoder.prependRange(first, last);
	encoder.prependVarNumber(valueLength);
	encoder.prependVarNumber(type);

	return encoder.block();
	}
	};

	/** @brief Create a binary block copying from generic InputIterator
	*/
	template<class Iterator>
	class BinaryBlockSlow
	{
	public:
	BOOST_CONCEPT_ASSERT((boost::InputIterator<Iterator>));

	static Block
	makeBlock(uint32_t type, Iterator first, Iterator last)
	{
	// reserve 4 bytes in front (common for 1(type)-3(length) encoding
	// Actual size will be adjusted as necessary by the encoder
	EncodingBuffer encoder(4, 4);
	size_t valueLength = encoder.appendRange(first, last);
	encoder.prependVarNumber(valueLength);
	encoder.prependVarNumber(type);

	return encoder.block();
	}
	};

	} // namespace detail

	/** @brief Create a TLV block copying TLV-VALUE from iterators.
	* @tparam Iterator an InputIterator dereferencable to an 1-octet type; faster implementation is
	* available for RandomAccessIterator
	* @param type TLV-TYPE number
	* @param first begin iterator
	* @param last past-the-end iterator
	*/
	template<class Iterator>
	Block
	makeBinaryBlock(uint32_t type, Iterator first, Iterator last)
	{
	using BinaryBlockHelper = typename std::conditional<
	std::is_base_of<std::random_access_iterator_tag,
	typename std::iterator_traits<Iterator>::iterator_category>::value,
	detail::BinaryBlockFast<Iterator>,
	detail::BinaryBlockSlow<Iterator>>::type;

	return BinaryBlockHelper::makeBlock(type, first, last);
	}

	/** @brief Prepend a TLV element containing a nested TLV element.
	* @tparam U type that satisfies WireEncodableWithEncodingBuffer concept
	* @param encoder an EncodingBuffer or EncodingEstimator
	* @param type TLV-TYPE number for outer TLV element
	* @param value an object to be encoded as inner TLV element
	* @sa makeNestedBlock
	*/
	template<Tag TAG, class U>
	size_t
	prependNestedBlock(EncodingImpl<TAG>& encoder, uint32_t type, const U& value)
	{
	BOOST_CONCEPT_ASSERT((WireEncodableWithEncodingBuffer<U>));

	size_t valueLength = value.wireEncode(encoder);
	size_t totalLength = valueLength;
	totalLength += encoder.prependVarNumber(valueLength);
	totalLength += encoder.prependVarNumber(type);

	return totalLength;
	}

	/** @brief Create a TLV block containing a nested TLV element.
	* @tparam U type that satisfies WireEncodableWithEncodingBuffer concept
	* @param type TLV-TYPE number for outer TLV element
	* @param value an object to be encoded as inner TLV element
	* @sa prependNestedBlock
	*/
	template<class U>
	Block
	makeNestedBlock(uint32_t type, const U& value)
	{
	EncodingEstimator estimator;
	size_t totalLength = prependNestedBlock(estimator, type, value);

	EncodingBuffer encoder(totalLength, 0);
	prependNestedBlock(encoder, type, value);

	return encoder.block();
	}

	} // namespace encoding

	using encoding::makeNonNegativeIntegerBlock;
	using encoding::readNonNegativeInteger;
	using encoding::readNonNegativeIntegerAs;
	using encoding::makeEmptyBlock;
	using encoding::makeStringBlock;
	using encoding::readString;
	using encoding::makeBinaryBlock;
	using encoding::makeNestedBlock;

	} // namespace ndn

	#endif // NDN_ENCODING_BLOCK_HELPERS_HPP