/*

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 MemoryDB.cpp

* @author Gav Wood <i@gavwood.com>

* @date 2014

*/

#include <libdevcore/Common.h>

#include "MemoryDB.h"

using namespace std;

using namespace dev;

namespace dev

{

const char* DBChannel::name() { return "TDB"; }

const char* DBWarn::name() { return "TDB"; }

std::unordered_map<h256, std::string> MemoryDB::get() const

{

ReadGuard l(x_this);

std::unordered_map<h256, std::string> ret;

for (auto const& i: m_main)

if (!m_enforceRefs || i.second.second > 0)

ret.insert(make_pair(i.first, i.second.first));

return ret;

}

MemoryDB& MemoryDB::operator=(MemoryDB const& _c)

{

if (this == &_c)

return *this;

ReadGuard l(_c.x_this);

WriteGuard l2(x_this);

m_main = _c.m_main;

m_aux = _c.m_aux;

return *this;

}

std::string MemoryDB::lookup(h256 const& _h) const

{

ReadGuard l(x_this);

auto it = m_main.find(_h);

if (it != m_main.end())

{

if (!m_enforceRefs || it->second.second > 0)

return it->second.first;

else

cwarn << "Lookup required for value with refcount == 0. This is probably a critical trie issue" << _h;

}

return std::string();

}

bool MemoryDB::exists(h256 const& _h) const

{

ReadGuard l(x_this);

auto it = m_main.find(_h);

if (it != m_main.end() && (!m_enforceRefs || it->second.second > 0))

return true;

return false;

}

void MemoryDB::insert(h256 const& _h, bytesConstRef _v)

{

WriteGuard l(x_this);

auto it = m_main.find(_h);

if (it != m_main.end())

{

it->second.first = _v.toString();

it->second.second++;

}

else

m_main[_h] = make_pair(_v.toString(), 1);

#if ETH_PARANOIA

dbdebug << "INST" << _h << "=>" << m_main[_h].second;

#endif

}

bool MemoryDB::kill(h256 const& _h)

{

ReadGuard l(x_this);

if (m_main.count(_h))

{

if (m_main[_h].second > 0)

{

m_main[_h].second--;

return true;

}

#if ETH_PARANOIA

else

{

// If we get to this point, then there was probably a node in the level DB which we need to remove and which we have previously

// used as part of the memory-based MemoryDB. Nothing to be worried about *as long as the node exists in the DB*.

dbdebug << "NOKILL-WAS" << _h;

}

dbdebug << "KILL" << _h << "=>" << m_main[_h].second;

}

else

{

dbdebug << "NOKILL" << _h;

#endif

}

return false;

}

void MemoryDB::purge()

{

WriteGuard l(x_this);

for (auto it = m_main.begin(); it != m_main.end(); )

if (it->second.second)

++it;

else

it = m_main.erase(it);

}

h256Hash MemoryDB::keys() const

{

ReadGuard l(x_this);

h256Hash ret;

for (auto const& i: m_main)

if (i.second.second)

ret.insert(i.first);

return ret;

}

}