mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
ef95ba9ac3
New libs (libethsupport, libevm, liblll). New LLLC binary.
199 lines
5.2 KiB
C++
199 lines
5.2 KiB
C++
/*
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This file is part of cpp-ethereum.
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cpp-ethereum is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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cpp-ethereum is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.
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*/
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/** @file TrieHash.cpp
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* @author Gav Wood <i@gavwood.com>
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* @date 2014
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*/
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#include "TrieHash.h"
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#include <libethsupport/TrieCommon.h>
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#include <libethcore/CommonEth.h>
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using namespace std;
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using namespace eth;
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namespace eth
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{
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/*/
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#define APPEND_CHILD appendData
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/*/
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#define APPEND_CHILD appendRaw
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/**/
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#define ENABLE_DEBUG_PRINT 0
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#if ENABLE_DEBUG_PRINT
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bool g_hashDebug = false;
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#endif
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void hash256aux(HexMap const& _s, HexMap::const_iterator _begin, HexMap::const_iterator _end, unsigned _preLen, RLPStream& _rlp);
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void hash256rlp(HexMap const& _s, HexMap::const_iterator _begin, HexMap::const_iterator _end, unsigned _preLen, RLPStream& _rlp)
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{
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#if ENABLE_DEBUG_PRINT
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static std::string s_indent;
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if (_preLen)
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s_indent += " ";
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#endif
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if (_begin == _end)
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_rlp << ""; // NULL
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else if (std::next(_begin) == _end)
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{
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// only one left - terminate with the pair.
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_rlp.appendList(2) << hexPrefixEncode(_begin->first, true, _preLen) << _begin->second;
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#if ENABLE_DEBUG_PRINT
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if (g_hashDebug)
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std::cerr << s_indent << toHex(bytesConstRef(_begin->first.data() + _preLen, _begin->first.size() - _preLen), 1) << ": " << _begin->second << " = " << sha3(_rlp.out()) << std::endl;
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#endif
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}
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else
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{
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// find the number of common prefix nibbles shared
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// i.e. the minimum number of nibbles shared at the beginning between the first hex string and each successive.
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uint sharedPre = (uint)-1;
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uint c = 0;
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for (auto i = std::next(_begin); i != _end && sharedPre; ++i, ++c)
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{
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uint x = std::min(sharedPre, std::min((uint)_begin->first.size(), (uint)i->first.size()));
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uint shared = _preLen;
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for (; shared < x && _begin->first[shared] == i->first[shared]; ++shared) {}
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sharedPre = std::min(shared, sharedPre);
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}
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if (sharedPre > _preLen)
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{
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// if they all have the same next nibble, we also want a pair.
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#if ENABLE_DEBUG_PRINT
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if (g_hashDebug)
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std::cerr << s_indent << toHex(bytesConstRef(_begin->first.data() + _preLen, sharedPre), 1) << ": " << std::endl;
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#endif
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_rlp.appendList(2) << hexPrefixEncode(_begin->first, false, _preLen, (int)sharedPre);
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hash256aux(_s, _begin, _end, (unsigned)sharedPre, _rlp);
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#if ENABLE_DEBUG_PRINT
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if (g_hashDebug)
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std::cerr << s_indent << "= " << hex << sha3(_rlp.out()) << dec << std::endl;
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#endif
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}
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else
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{
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// otherwise enumerate all 16+1 entries.
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_rlp.appendList(17);
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auto b = _begin;
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if (_preLen == b->first.size())
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{
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#if ENABLE_DEBUG_PRINT
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if (g_hashDebug)
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std::cerr << s_indent << "@: " << b->second << std::endl;
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#endif
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++b;
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}
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for (auto i = 0; i < 16; ++i)
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{
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auto n = b;
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for (; n != _end && n->first[_preLen] == i; ++n) {}
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if (b == n)
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_rlp << "";
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else
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{
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#if ENABLE_DEBUG_PRINT
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if (g_hashDebug)
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std::cerr << s_indent << std::hex << i << ": " << std::dec << std::endl;
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#endif
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hash256aux(_s, b, n, _preLen + 1, _rlp);
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}
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b = n;
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}
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if (_preLen == _begin->first.size())
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_rlp << _begin->second;
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else
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_rlp << "";
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#if ENABLE_DEBUG_PRINT
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if (g_hashDebug)
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std::cerr << s_indent << "= " << hex << sha3(_rlp.out()) << dec << std::endl;
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#endif
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}
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}
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#if ENABLE_DEBUG_PRINT
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if (_preLen)
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s_indent.resize(s_indent.size() - 2);
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#endif
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}
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void hash256aux(HexMap const& _s, HexMap::const_iterator _begin, HexMap::const_iterator _end, unsigned _preLen, RLPStream& _rlp)
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{
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RLPStream rlp;
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hash256rlp(_s, _begin, _end, _preLen, rlp);
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if (rlp.out().size() < 32)
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{
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// RECURSIVE RLP
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#if ENABLE_DEBUG_PRINT
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cerr << "[INLINE: " << dec << rlp.out().size() << " < 32]" << endl;
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#endif
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_rlp.APPEND_CHILD(rlp.out());
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}
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else
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{
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#if ENABLE_DEBUG_PRINT
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cerr << "[HASH: " << dec << rlp.out().size() << " >= 32]" << endl;
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#endif
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_rlp << sha3(rlp.out());
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}
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}
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h256 hash256(StringMap const& _s)
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{
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// build patricia tree.
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if (_s.empty())
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return h256();
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HexMap hexMap;
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for (auto i = _s.rbegin(); i != _s.rend(); ++i)
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hexMap[asNibbles(i->first)] = i->second;
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RLPStream s;
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hash256rlp(hexMap, hexMap.cbegin(), hexMap.cend(), 0, s);
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return sha3(s.out());
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}
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bytes rlp256(StringMap const& _s)
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{
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// build patricia tree.
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if (_s.empty())
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return bytes();
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HexMap hexMap;
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for (auto i = _s.rbegin(); i != _s.rend(); ++i)
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hexMap[asNibbles(i->first)] = i->second;
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RLPStream s;
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hash256aux(hexMap, hexMap.cbegin(), hexMap.cend(), 0, s);
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return s.out();
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}
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h256 hash256(u256Map const& _s)
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{
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// build patricia tree.
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if (_s.empty())
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return h256();
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HexMap hexMap;
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for (auto i = _s.rbegin(); i != _s.rend(); ++i)
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hexMap[asNibbles(toBigEndianString(i->first))] = asString(rlp(i->second));
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RLPStream s;
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hash256rlp(hexMap, hexMap.cbegin(), hexMap.cend(), 0, s);
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return sha3(s.out());
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}
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}
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