/* This file is part of cpp-ethereum. cpp-ethereum is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. cpp-ethereum 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 General Public License for more details. You should have received a copy of the GNU General Public License along with cpp-ethereum. If not, see . */ /** @file RLP.h * @author Gav Wood * @date 2014 * * RLP (de-)serialisation. */ #pragma once #include #include #include #include #include #include "vector_ref.h" #include "Common.h" #include "Exceptions.h" namespace eth { class RLP; typedef std::vector RLPs; template struct intTraits { static const uint maxSize = sizeof(_T); }; template <> struct intTraits { static const uint maxSize = 20; }; template <> struct intTraits { static const uint maxSize = 32; }; template <> struct intTraits { static const uint maxSize = ~(uint)0; }; static const byte c_rlpMaxLengthBytes = 8; static const byte c_rlpDataImmLenStart = 0x80; static const byte c_rlpListStart = 0xc0; static const byte c_rlpDataImmLenCount = c_rlpListStart - c_rlpDataImmLenStart - c_rlpMaxLengthBytes; static const byte c_rlpDataIndLenZero = c_rlpDataImmLenStart + c_rlpDataImmLenCount - 1; static const byte c_rlpListImmLenCount = 256 - c_rlpListStart - c_rlpMaxLengthBytes; static const byte c_rlpListIndLenZero = c_rlpListStart + c_rlpListImmLenCount - 1; /** * @brief Class for interpreting Recursive Linear-Prefix Data. * @by Gav Wood, 2013 * * Class for reading byte arrays of data in RLP format. */ class RLP { public: /// Construct a null node. RLP() {} /// Construct a node of value given in the bytes. explicit RLP(bytesConstRef _d): m_data(_d) {} /// Construct a node of value given in the bytes. explicit RLP(bytes const& _d): m_data(&_d) {} /// Construct a node to read RLP data in the bytes given. RLP(byte const* _b, uint _s): m_data(bytesConstRef(_b, _s)) {} /// Construct a node to read RLP data in the string. explicit RLP(std::string const& _s): m_data(bytesConstRef((byte const*)_s.data(), _s.size())) {} /// The bare data of the RLP. bytesConstRef data() const { return m_data; } /// @returns true if the RLP is non-null. explicit operator bool() const { return !isNull(); } /// No value. bool isNull() const { return m_data.size() == 0; } /// Contains a zero-length string or zero-length list. bool isEmpty() const { return !isNull() && (m_data[0] == c_rlpDataImmLenStart || m_data[0] == c_rlpListStart); } /// String value. bool isData() const { return !isNull() && m_data[0] < c_rlpListStart; } /// List value. bool isList() const { return !isNull() && m_data[0] >= c_rlpListStart; } /// Integer value. Must not have a leading zero. bool isInt() const; /// @returns the number of items in the list, or zero if it isn't a list. uint itemCount() const { return isList() ? items() : 0; } uint itemCountStrict() const { if (!isList()) throw BadCast(); return items(); } /// @returns the number of bytes in the data, or zero if it isn't data. uint size() const { return isData() ? length() : 0; } uint sizeStrict() const { if (!isData()) throw BadCast(); return length(); } /// Equality operators; does best-effort conversion and checks for equality. bool operator==(char const* _s) const { return isData() && toString() == _s; } bool operator!=(char const* _s) const { return isData() && toString() != _s; } bool operator==(std::string const& _s) const { return isData() && toString() == _s; } bool operator!=(std::string const& _s) const { return isData() && toString() != _s; } template bool operator==(FixedHash<_N> const& _h) const { return isData() && toHash<_N>() == _h; } template bool operator!=(FixedHash<_N> const& _s) const { return isData() && toHash<_N>() != _s; } bool operator==(uint const& _i) const { return isInt() && toInt() == _i; } bool operator!=(uint const& _i) const { return isInt() && toInt() != _i; } bool operator==(u256 const& _i) const { return isInt() && toInt() == _i; } bool operator!=(u256 const& _i) const { return isInt() && toInt() != _i; } bool operator==(bigint const& _i) const { return isInt() && toInt() == _i; } bool operator!=(bigint const& _i) const { return isInt() && toInt() != _i; } /// Subscript operator. /// @returns the list item @a _i if isList() and @a _i < listItems(), or RLP() otherwise. /// @note if used to access items in ascending order, this is efficient. RLP operator[](uint _i) const; typedef RLP element_type; /// @brief Iterator class for iterating through items of RLP list. class iterator { friend class RLP; public: typedef RLP value_type; typedef RLP element_type; iterator& operator++(); iterator operator++(int) { auto ret = *this; operator++(); return ret; } RLP operator*() const { return RLP(m_lastItem); } bool operator==(iterator const& _cmp) const { return m_lastItem == _cmp.m_lastItem; } bool operator!=(iterator const& _cmp) const { return !operator==(_cmp); } private: iterator() {} iterator(RLP const& _parent, bool _begin); uint m_remaining = 0; bytesConstRef m_lastItem; }; /// @brief Iterator into beginning of sub-item list (valid only if we are a list). iterator begin() const { return iterator(*this, true); } /// @brief Iterator into end of sub-item list (valid only if we are a list). iterator end() const { return iterator(*this, false); } /// Best-effort conversion operators. explicit operator std::string() const { return toString(); } explicit operator RLPs() const { return toList(); } explicit operator byte() const { return toInt(); } explicit operator uint() const { return toInt(); } explicit operator u256() const { return toInt(); } explicit operator bigint() const { return toInt(); } template explicit operator FixedHash<_N>() const { return toHash>(); } /// Converts to bytearray. @returns the empty byte array if not a string. bytes toBytes() const { if (!isData()) return bytes(); return bytes(payload().data(), payload().data() + length()); } /// Converts to bytearray. @returns the empty byte array if not a string. bytesConstRef toBytesConstRef() const { if (!isData()) return bytesConstRef(); return payload().cropped(0, length()); } /// Converts to string. @returns the empty string if not a string. std::string toString() const { if (!isData()) return std::string(); return payload().cropped(0, length()).toString(); } /// Converts to string. @throws BadCast if not a string. std::string toStringStrict() const { if (!isData()) throw BadCast(); return payload().cropped(0, length()).toString(); } template std::vector toVector() const { std::vector ret; if (isList()) { ret.reserve(itemCount()); for (auto const& i: *this) ret.push_back((T)i); } return ret; } template std::array toArray() const { if (itemCount() != N || !isList()) throw BadCast(); std::array ret; for (uint i = 0; i < N; ++i) ret[i] = (T)operator[](i); return ret; } /// Int conversion flags enum { AllowNonCanon = 1, ThrowOnFail = 4, FailIfTooBig = 8, Strict = ThrowOnFail | FailIfTooBig, LaisezFaire = AllowNonCanon }; /// Converts to int of type given; if isString(), decodes as big-endian bytestream. @returns 0 if not an int or string. template _T toInt(int _flags = Strict) const { if ((!isInt() && !(_flags & AllowNonCanon)) || isList() || isNull()) if (_flags & ThrowOnFail) throw BadCast(); else return 0; else {} auto p = payload(); if (p.size() > intTraits<_T>::maxSize && (_flags & FailIfTooBig)) if (_flags & ThrowOnFail) throw BadCast(); else return 0; else {} return fromBigEndian<_T>(p); } template _N toHash(int _flags = Strict) const { if (!isData() || (length() > _N::size && (_flags & FailIfTooBig))) if (_flags & ThrowOnFail) throw BadCast(); else return _N(); else{} _N ret; size_t s = std::min((size_t)_N::size, (size_t)length()); memcpy(ret.data() + _N::size - s, payload().data(), s); return ret; } /// Converts to RLPs collection object. Useful if you need random access to sub items or will iterate over multiple times. RLPs toList() const; /// @returns the data payload. Valid for all types. bytesConstRef payload() const { return isSingleByte() ? m_data.cropped(0, 1) : m_data.cropped(1 + lengthSize()); } /// @returns the theoretical size of this item. /// @note Under normal circumstances, is equivalent to m_data.size() - use that unless you know it won't work. uint actualSize() const; private: /// Single-byte data payload. bool isSingleByte() const { return !isNull() && m_data[0] < c_rlpDataImmLenStart; } /// @returns the bytes used to encode the length of the data. Valid for all types. uint lengthSize() const { if (isData() && m_data[0] > c_rlpDataIndLenZero) return m_data[0] - c_rlpDataIndLenZero; if (isList() && m_data[0] > c_rlpListIndLenZero) return m_data[0] - c_rlpListIndLenZero; return 0; } /// @returns the size in bytes of the payload, as given by the RLP as opposed to as inferred from m_data. uint length() const; /// @returns the number of data items. uint items() const; /// Our byte data. bytesConstRef m_data; /// The list-indexing cache. mutable uint m_lastIndex = (uint)-1; mutable uint m_lastEnd = 0; mutable bytesConstRef m_lastItem; }; /** * @brief Class for writing to an RLP bytestream. */ class RLPStream { public: /// Initializes empty RLPStream. RLPStream() {} /// Initializes the RLPStream as a list of @a _listItems items. explicit RLPStream(uint _listItems) { appendList(_listItems); } ~RLPStream() {} /// Append given datum to the byte stream. RLPStream& append(uint _s) { return append(bigint(_s)); } RLPStream& append(u160 _s) { return append(bigint(_s)); } RLPStream& append(u256 _s) { return append(bigint(_s)); } RLPStream& append(bigint _s); RLPStream& append(bytesConstRef _s, bool _compact = false); RLPStream& append(bytes const& _s) { return append(bytesConstRef(&_s)); } RLPStream& append(std::string const& _s) { return append(bytesConstRef(_s)); } RLPStream& append(char const* _s) { return append(std::string(_s)); } template RLPStream& append(FixedHash _s, bool _compact = false) { return append(_s.ref(), _compact); } /// Appends an arbitrary RLP fragment - this *must* be a single item. RLPStream& append(RLP const& _rlp, uint _itemCount = 1) { return appendRaw(_rlp.data(), _itemCount); } /// Appends a sequence of data to the stream as a list. template RLPStream& append(std::vector<_T> const& _s) { return appendVector(_s); } template RLPStream& append(std::array<_T, S> const& _s) { appendList(_s.size()); for (auto const& i: _s) append(i); return *this; } template RLPStream& appendVector(std::vector<_T> const& _s) { appendList(_s.size()); for (auto const& i: _s) append(i); return *this; } /// Appends a list. RLPStream& appendList(uint _items); RLPStream& appendList(bytesConstRef _rlp); RLPStream& appendList(bytes const& _rlp) { return appendList(&_rlp); } RLPStream& appendList(RLPStream const& _s) { return appendList(&_s.out()); } /// Appends raw (pre-serialised) RLP data. Use with caution. RLPStream& appendRaw(bytesConstRef _rlp, uint _itemCount = 1); RLPStream& appendRaw(bytes const& _rlp, uint _itemCount = 1) { return appendRaw(&_rlp, _itemCount); } /// Shift operators for appending data items. template RLPStream& operator<<(T _data) { return append(_data); } /// Clear the output stream so far. void clear() { m_out.clear(); m_listStack.clear(); } /// Read the byte stream. bytes const& out() const { assert(m_listStack.empty()); return m_out; } /// Swap the contents of the output stream out for some other byte array. void swapOut(bytes& _dest) { assert(m_listStack.empty()); swap(m_out, _dest); } private: void noteAppended(uint _itemCount = 1); /// Push the node-type byte (using @a _base) along with the item count @a _count. /// @arg _count is number of characters for strings, data-bytes for ints, or items for lists. void pushCount(uint _count, byte _offset); /// Push an integer as a raw big-endian byte-stream. template void pushInt(_T _i, uint _br) { m_out.resize(m_out.size() + _br); byte* b = &m_out.back(); for (; _i; _i >>= 8) *(b--) = (byte)_i; } /// Our output byte stream. bytes m_out; std::vector> m_listStack; }; template void rlpListAux(RLPStream& _out, _T _t) { _out << _t; } template void rlpListAux(RLPStream& _out, _T _t, _Ts ... _ts) { rlpListAux(_out << _t, _ts...); } /// Export a single item in RLP format, returning a byte array. template bytes rlp(_T _t) { return (RLPStream() << _t).out(); } /// Export a list of items in RLP format, returning a byte array. inline bytes rlpList() { return RLPStream(0).out(); } template bytes rlpList(_Ts ... _ts) { RLPStream out(sizeof ...(_Ts)); rlpListAux(out, _ts...); return out.out(); } /// The empty string in RLP format. extern bytes RLPNull; /// The empty list in RLP format. extern bytes RLPEmptyList; /// Human readable version of RLP. std::ostream& operator<<(std::ostream& _out, eth::RLP const& _d); }