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/*
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 <http://www.gnu.org/licenses/>.
*/
/** @file RLP.cpp
* @author Gav Wood <i@gavwood.com>
* @date 2014
*/
#include "RLP.h"
using namespace std;
using namespace dev;
bytes dev::RLPNull = rlp("");
bytes dev::RLPEmptyList = rlpList();
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RLP::RLP(bytesConstRef _d, Strictness _s):
m_data(_d)
{
if ((_s & FailIfTooBig) && actualSize() < _d.size())
{
if (_s & ThrowOnFail)
BOOST_THROW_EXCEPTION(OversizeRLP());
else
m_data.reset();
}
if ((_s & FailIfTooSmall) && actualSize() > _d.size())
{
if (_s & ThrowOnFail)
BOOST_THROW_EXCEPTION(UndersizeRLP());
else
m_data.reset();
}
}
RLP::iterator& RLP::iterator::operator++()
{
if (m_remaining)
{
m_currentItem.retarget(m_currentItem.next().data(), m_remaining);
m_currentItem = m_currentItem.cropped(0, sizeAsEncoded(m_currentItem));
m_remaining -= std::min<size_t>(m_remaining, m_currentItem.size());
}
else
m_currentItem.retarget(m_currentItem.next().data(), 0);
return *this;
}
RLP::iterator::iterator(RLP const& _parent, bool _begin)
{
if (_begin && _parent.isList())
{
auto pl = _parent.payload();
m_currentItem = pl.cropped(0, sizeAsEncoded(pl));
m_remaining = pl.size() - m_currentItem.size();
}
else
{
m_currentItem = _parent.data().cropped(_parent.data().size());
m_remaining = 0;
}
}
RLP RLP::operator[](size_t _i) const
{
if (_i < m_lastIndex)
{
m_lastEnd = sizeAsEncoded(payload());
m_lastItem = payload().cropped(0, m_lastEnd);
m_lastIndex = 0;
}
for (; m_lastIndex < _i && m_lastItem.size(); ++m_lastIndex)
{
m_lastItem = payload().cropped(m_lastEnd);
m_lastItem = m_lastItem.cropped(0, sizeAsEncoded(m_lastItem));
m_lastEnd += m_lastItem.size();
}
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return RLP(m_lastItem, ThrowOnFail | FailIfTooSmall);
}
RLPs RLP::toList() const
{
RLPs ret;
if (!isList())
return ret;
for (auto const& i: *this)
ret.push_back(i);
return ret;
}
size_t RLP::actualSize() const
{
if (isNull())
return 0;
if (isSingleByte())
return 1;
if (isData() || isList())
return payloadOffset() + length();
return 0;
}
void RLP::requireGood() const
{
if (isNull())
BOOST_THROW_EXCEPTION(BadRLP());
byte n = m_data[0];
if (n != c_rlpDataImmLenStart + 1)
return;
if (m_data.size() < 2)
BOOST_THROW_EXCEPTION(BadRLP());
if (m_data[1] < c_rlpDataImmLenStart)
BOOST_THROW_EXCEPTION(BadRLP());
}
bool RLP::isInt() const
{
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if (isNull())
return false;
requireGood();
byte n = m_data[0];
if (n < c_rlpDataImmLenStart)
return !!n;
else if (n == c_rlpDataImmLenStart)
return true;
else if (n <= c_rlpDataIndLenZero)
{
if (m_data.size() <= 1)
BOOST_THROW_EXCEPTION(BadRLP());
return m_data[1] != 0;
}
else if (n < c_rlpListStart)
{
if (m_data.size() <= size_t(1 + n - c_rlpDataIndLenZero))
BOOST_THROW_EXCEPTION(BadRLP());
return m_data[1 + n - c_rlpDataIndLenZero] != 0;
}
else
return false;
return false;
}
size_t RLP::length() const
{
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if (isNull())
return 0;
requireGood();
size_t ret = 0;
byte const n = m_data[0];
if (n < c_rlpDataImmLenStart)
return 1;
else if (n <= c_rlpDataIndLenZero)
return n - c_rlpDataImmLenStart;
else if (n < c_rlpListStart)
{
if (m_data.size() <= size_t(n - c_rlpDataIndLenZero))
BOOST_THROW_EXCEPTION(BadRLP());
if (m_data.size() > 1)
if (m_data[1] == 0)
BOOST_THROW_EXCEPTION(BadRLP());
unsigned lengthSize = n - c_rlpDataIndLenZero;
if (lengthSize > sizeof(ret))
// We did not check, but would most probably not fit in our memory.
BOOST_THROW_EXCEPTION(UndersizeRLP());
// No leading zeroes.
if (!m_data[1])
BOOST_THROW_EXCEPTION(BadRLP());
for (unsigned i = 0; i < lengthSize; ++i)
ret = (ret << 8) | m_data[i + 1];
// Must be greater than the limit.
if (ret < c_rlpListStart - c_rlpDataImmLenStart - c_rlpMaxLengthBytes)
BOOST_THROW_EXCEPTION(BadRLP());
}
else if (n <= c_rlpListIndLenZero)
return n - c_rlpListStart;
else
{
unsigned lengthSize = n - c_rlpListIndLenZero;
if (m_data.size() <= lengthSize)
BOOST_THROW_EXCEPTION(BadRLP());
if (m_data.size() > 1)
if (m_data[1] == 0)
BOOST_THROW_EXCEPTION(BadRLP());
if (lengthSize > sizeof(ret))
// We did not check, but would most probably not fit in our memory.
BOOST_THROW_EXCEPTION(UndersizeRLP());
if (!m_data[1])
BOOST_THROW_EXCEPTION(BadRLP());
for (unsigned i = 0; i < lengthSize; ++i)
ret = (ret << 8) | m_data[i + 1];
if (ret < 0x100 - c_rlpListStart - c_rlpMaxLengthBytes)
BOOST_THROW_EXCEPTION(BadRLP());
}
// We have to be able to add payloadOffset to length without overflow.
// This rejects roughly 4GB-sized RLPs on some platforms.
if (ret >= std::numeric_limits<size_t>::max() - 0x100)
BOOST_THROW_EXCEPTION(UndersizeRLP());
return ret;
}
size_t RLP::items() const
{
if (isList())
{
bytesConstRef d = payload();
size_t i = 0;
for (; d.size(); ++i)
d = d.cropped(sizeAsEncoded(d));
return i;
}
return 0;
}
RLPStream& RLPStream::appendRaw(bytesConstRef _s, size_t _itemCount)
{
m_out.insert(m_out.end(), _s.begin(), _s.end());
noteAppended(_itemCount);
return *this;
}
void RLPStream::noteAppended(size_t _itemCount)
{
if (!_itemCount)
return;
// cdebug << "noteAppended(" << _itemCount << ")";
while (m_listStack.size())
{
if (m_listStack.back().first < _itemCount)
BOOST_THROW_EXCEPTION(RLPException() << errinfo_comment("itemCount too large") << RequirementError((bigint)m_listStack.back().first, (bigint)_itemCount));
m_listStack.back().first -= _itemCount;
if (m_listStack.back().first)
break;
else
{
auto p = m_listStack.back().second;
m_listStack.pop_back();
size_t s = m_out.size() - p; // list size
auto brs = bytesRequired(s);
unsigned encodeSize = s < c_rlpListImmLenCount ? 1 : (1 + brs);
// cdebug << "s: " << s << ", p: " << p << ", m_out.size(): " << m_out.size() << ", encodeSize: " << encodeSize << " (br: " << brs << ")";
auto os = m_out.size();
m_out.resize(os + encodeSize);
memmove(m_out.data() + p + encodeSize, m_out.data() + p, os - p);
if (s < c_rlpListImmLenCount)
m_out[p] = (byte)(c_rlpListStart + s);
else if (c_rlpListIndLenZero + brs <= 0xff)
{
m_out[p] = (byte)(c_rlpListIndLenZero + brs);
byte* b = &(m_out[p + brs]);
for (; s; s >>= 8)
*(b--) = (byte)s;
}
else
BOOST_THROW_EXCEPTION(RLPException() << errinfo_comment("itemCount too large for RLP"));
}
_itemCount = 1; // for all following iterations, we've effectively appended a single item only since we completed a list.
}
}
RLPStream& RLPStream::appendList(size_t _items)
{
// cdebug << "appendList(" << _items << ")";
if (_items)
m_listStack.push_back(std::make_pair(_items, m_out.size()));
else
appendList(bytes());
return *this;
}
RLPStream& RLPStream::appendList(bytesConstRef _rlp)
{
if (_rlp.size() < c_rlpListImmLenCount)
m_out.push_back((byte)(_rlp.size() + c_rlpListStart));
else
pushCount(_rlp.size(), c_rlpListIndLenZero);
appendRaw(_rlp, 1);
return *this;
}
RLPStream& RLPStream::append(bytesConstRef _s, bool _compact)
{
size_t s = _s.size();
byte const* d = _s.data();
if (_compact)
for (size_t i = 0; i < _s.size() && !*d; ++i, --s, ++d) {}
if (s == 1 && *d < c_rlpDataImmLenStart)
m_out.push_back(*d);
else
{
if (s < c_rlpDataImmLenCount)
m_out.push_back((byte)(s + c_rlpDataImmLenStart));
else
pushCount(s, c_rlpDataIndLenZero);
appendRaw(bytesConstRef(d, s), 0);
}
noteAppended();
return *this;
}
RLPStream& RLPStream::append(bigint _i)
{
if (!_i)
m_out.push_back(c_rlpDataImmLenStart);
else if (_i < c_rlpDataImmLenStart)
m_out.push_back((byte)_i);
else
{
unsigned br = bytesRequired(_i);
if (br < c_rlpDataImmLenCount)
m_out.push_back((byte)(br + c_rlpDataImmLenStart));
else
{
auto brbr = bytesRequired(br);
if (c_rlpDataIndLenZero + brbr > 0xff)
BOOST_THROW_EXCEPTION(RLPException() << errinfo_comment("Number too large for RLP"));
m_out.push_back((byte)(c_rlpDataIndLenZero + brbr));
pushInt(br, brbr);
}
pushInt(_i, br);
}
noteAppended();
return *this;
}
void RLPStream::pushCount(size_t _count, byte _base)
{
auto br = bytesRequired(_count);
if (int(br) + _base > 0xff)
BOOST_THROW_EXCEPTION(RLPException() << errinfo_comment("Count too large for RLP"));
m_out.push_back((byte)(br + _base)); // max 8 bytes.
pushInt(_count, br);
}
static void streamOut(std::ostream& _out, dev::RLP const& _d, unsigned _depth = 0)
{
if (_depth > 64)
_out << "<max-depth-reached>";
else if (_d.isNull())
_out << "null";
else if (_d.isInt())
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_out << std::showbase << std::hex << std::nouppercase << _d.toInt<bigint>(RLP::LaissezFaire) << dec;
else if (_d.isData())
_out << escaped(_d.toString(), false);
else if (_d.isList())
{
_out << "[";
int j = 0;
for (auto i: _d)
{
_out << (j++ ? ", " : " ");
streamOut(_out, i, _depth + 1);
}
_out << " ]";
}
}
std::ostream& dev::operator<<(std::ostream& _out, RLP const& _d)
{
streamOut(_out, _d);
return _out;
}