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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 BlockChain.cpp
* @author Gav Wood <i@gavwood.com>
* @date 2014
*/
#include <leveldb/db.h>
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#include "BlockChain.h"
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#include <boost/filesystem.hpp>
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#include <test/JsonSpiritHeaders.h>
#include <libdevcore/Common.h>
#include <libdevcore/RLP.h>
#include <libdevcore/StructuredLogger.h>
#include <libdevcrypto/FileSystem.h>
#include <libethcore/Exceptions.h>
#include <libethcore/ProofOfWork.h>
#include <libethcore/BlockInfo.h>
#include <liblll/Compiler.h>
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#include "GenesisInfo.h"
#include "State.h"
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#include "Defaults.h"
using namespace std;
using namespace dev;
using namespace dev::eth;
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namespace js = json_spirit;
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#define ETH_CATCH 1
std::ostream& dev::eth::operator<<(std::ostream& _out, BlockChain const& _bc)
{
string cmp = toBigEndianString(_bc.currentHash());
auto it = _bc.m_blocksDB->NewIterator(_bc.m_readOptions);
for (it->SeekToFirst(); it->Valid(); it->Next())
if (it->key().ToString() != "best")
{
try {
BlockInfo d(bytesConstRef(it->value()));
_out << toHex(it->key().ToString()) << ": " << d.number << " @ " << d.parentHash << (cmp == it->key().ToString() ? " BEST" : "") << std::endl;
}
catch (...) {
cwarn << "Invalid DB entry:" << toHex(it->key().ToString()) << " -> " << toHex(bytesConstRef(it->value()));
}
}
delete it;
return _out;
}
ldb::Slice dev::eth::toSlice(h256 _h, unsigned _sub)
{
#if ALL_COMPILERS_ARE_CPP11_COMPLIANT
static thread_local h256 h = _h ^ h256(u256(_sub));
return ldb::Slice((char const*)&h, 32);
#else
static boost::thread_specific_ptr<h256> t_h;
if (!t_h.get())
t_h.reset(new h256);
*t_h = _h ^ h256(u256(_sub));
return ldb::Slice((char const*)t_h.get(), 32);
#endif
}
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#if ETH_DEBUG
static const chrono::system_clock::duration c_collectionDuration = chrono::seconds(15);
static const unsigned c_collectionQueueSize = 2;
static const unsigned c_maxCacheSize = 1024 * 1024 * 1;
static const unsigned c_minCacheSize = 1;
#else
/// Duration between flushes.
static const chrono::system_clock::duration c_collectionDuration = chrono::seconds(60);
/// Length of death row (total time in cache is multiple of this and collection duration).
static const unsigned c_collectionQueueSize = 20;
/// Max size, above which we start forcing cache reduction.
static const unsigned c_maxCacheSize = 1024 * 1024 * 64;
/// Min size, below which we don't bother flushing it.
static const unsigned c_minCacheSize = 1024 * 1024 * 32;
#endif
BlockChain::BlockChain(bytes const& _genesisBlock, std::string _path, bool _killExisting)
{
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// initialise deathrow.
m_cacheUsage.resize(c_collectionQueueSize);
m_lastCollection = chrono::system_clock::now();
// Initialise with the genesis as the last block on the longest chain.
m_genesisBlock = _genesisBlock;
m_genesisHash = sha3(RLP(m_genesisBlock)[0].data());
open(_path, _killExisting);
}
BlockChain::~BlockChain()
{
close();
}
void BlockChain::open(std::string _path, bool _killExisting)
{
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if (_path.empty())
_path = Defaults::get()->m_dbPath;
boost::filesystem::create_directories(_path);
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if (_killExisting)
{
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boost::filesystem::remove_all(_path + "/blocks");
boost::filesystem::remove_all(_path + "/details");
}
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ldb::Options o;
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o.create_if_missing = true;
ldb::DB::Open(o, _path + "/blocks", &m_blocksDB);
ldb::DB::Open(o, _path + "/details", &m_extrasDB);
if (!m_blocksDB)
BOOST_THROW_EXCEPTION(DatabaseAlreadyOpen());
if (!m_extrasDB)
BOOST_THROW_EXCEPTION(DatabaseAlreadyOpen());
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if (!details(m_genesisHash))
{
// Insert details of genesis block.
m_details[m_genesisHash] = BlockDetails(0, c_genesisDifficulty, h256(), {});
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auto r = m_details[m_genesisHash].rlp();
m_extrasDB->Put(m_writeOptions, ldb::Slice((char const*)&m_genesisHash, 32), (ldb::Slice)dev::ref(r));
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}
checkConsistency();
// TODO: Implement ability to rebuild details map from DB.
std::string l;
m_extrasDB->Get(m_readOptions, ldb::Slice("best"), &l);
m_lastBlockHash = l.empty() ? m_genesisHash : *(h256*)l.data();
cnote << "Opened blockchain DB. Latest: " << currentHash();
}
void BlockChain::close()
{
cnote << "Closing blockchain DB";
delete m_extrasDB;
delete m_blocksDB;
m_lastBlockHash = m_genesisHash;
m_details.clear();
m_blocks.clear();
}
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template <class T, class V>
bool contains(T const& _t, V const& _v)
{
for (auto const& i: _t)
if (i == _v)
return true;
return false;
}
inline string toString(h256s const& _bs)
{
ostringstream out;
out << "[ ";
for (auto i: _bs)
out << i.abridged() << ", ";
out << "]";
return out.str();
}
h256s BlockChain::sync(BlockQueue& _bq, OverlayDB const& _stateDB, unsigned _max)
{
_bq.tick(*this);
vector<bytes> blocks;
_bq.drain(blocks);
h256s ret;
for (auto const& block: blocks)
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{
try
{
for (auto h: import(block, _stateDB))
if (!_max--)
break;
else
ret.push_back(h);
}
catch (UnknownParent)
{
cwarn << "Unknown parent of block!!!" << BlockInfo::headerHash(block).abridged() << boost::current_exception_diagnostic_information();
_bq.import(&block, *this);
}
catch (Exception const& _e)
{
cwarn << "Unexpected exception!" << diagnostic_information(_e);
_bq.import(&block, *this);
}
catch (...)
{}
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}
_bq.doneDrain();
return ret;
}
h256s BlockChain::attemptImport(bytes const& _block, OverlayDB const& _stateDB) noexcept
{
try
{
return import(_block, _stateDB);
}
catch (...)
{
cwarn << "Unexpected exception! Could not import block!" << boost::current_exception_diagnostic_information();
return h256s();
}
}
h256s BlockChain::import(bytes const& _block, OverlayDB const& _db)
{
// VERIFY: populates from the block and checks the block is internally coherent.
BlockInfo bi;
#if ETH_CATCH
try
#endif
{
RLP blockRLP(_block);
if (!blockRLP.isList())
BOOST_THROW_EXCEPTION(InvalidBlockFormat() << errinfo_comment("block header needs to be a list") << BadFieldError(0, blockRLP.data().toString()));
bi.populate(&_block);
bi.verifyInternals(&_block);
}
#if ETH_CATCH
catch (Exception const& _e)
{
clog(BlockChainNote) << " Malformed block: " << diagnostic_information(_e);
_e << errinfo_comment("Malformed block ");
throw;
}
#endif
auto newHash = BlockInfo::headerHash(_block);
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// Check block doesn't already exist first!
if (isKnown(newHash))
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{
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clog(BlockChainNote) << newHash << ": Not new.";
BOOST_THROW_EXCEPTION(AlreadyHaveBlock());
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}
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// Work out its number as the parent's number + 1
if (!isKnown(bi.parentHash))
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{
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clog(BlockChainNote) << newHash << ": Unknown parent " << bi.parentHash;
// We don't know the parent (yet) - discard for now. It'll get resent to us if we find out about its ancestry later on.
BOOST_THROW_EXCEPTION(UnknownParent());
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}
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auto pd = details(bi.parentHash);
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if (!pd)
{
auto pdata = pd.rlp();
cwarn << "Odd: details is returning false despite block known:" << RLP(pdata);
auto parentBlock = block(bi.parentHash);
cwarn << "Block:" << RLP(parentBlock);
}
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// Check it's not crazy
if (bi.timestamp > (u256)time(0))
{
clog(BlockChainNote) << newHash << ": Future time " << bi.timestamp << " (now at " << time(0) << ")";
// Block has a timestamp in the future. This is no good.
BOOST_THROW_EXCEPTION(FutureTime());
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}
clog(BlockChainNote) << "Attempting import of " << newHash.abridged() << "...";
u256 td;
#if ETH_CATCH
try
#endif
{
// Check transactions are valid and that they result in a state equivalent to our state_root.
// Get total difficulty increase and update state, checking it.
State s(bi.coinbaseAddress, _db);
auto tdIncrease = s.enactOn(&_block, bi, *this);
BlockLogBlooms blb;
BlockReceipts br;
for (unsigned i = 0; i < s.pending().size(); ++i)
{
blb.blooms.push_back(s.receipt(i).bloom());
br.receipts.push_back(s.receipt(i));
}
s.cleanup(true);
td = pd.totalDifficulty + tdIncrease;
#if ETH_PARANOIA
checkConsistency();
#endif
// All ok - insert into DB
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{
WriteGuard l(x_details);
m_details[newHash] = BlockDetails((unsigned)pd.number + 1, td, bi.parentHash, {});
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m_details[bi.parentHash].children.push_back(newHash);
}
{
WriteGuard l(x_blockHashes);
m_blockHashes[h256(bi.number)].value = newHash;
}
// Collate transaction hashes and remember who they were.
h256s tas;
{
RLP blockRLP(_block);
TransactionAddress ta;
ta.blockHash = newHash;
WriteGuard l(x_transactionAddresses);
for (ta.index = 0; ta.index < blockRLP[1].itemCount(); ++ta.index)
{
tas.push_back(sha3(blockRLP[1][ta.index].data()));
m_transactionAddresses[tas.back()] = ta;
}
}
{
WriteGuard l(x_logBlooms);
m_logBlooms[newHash] = blb;
}
{
WriteGuard l(x_receipts);
m_receipts[newHash] = br;
}
m_blocksDB->Put(m_writeOptions, toSlice(newHash), (ldb::Slice)ref(_block));
m_extrasDB->Put(m_writeOptions, toSlice(newHash, ExtraDetails), (ldb::Slice)dev::ref(m_details[newHash].rlp()));
m_extrasDB->Put(m_writeOptions, toSlice(bi.parentHash, ExtraDetails), (ldb::Slice)dev::ref(m_details[bi.parentHash].rlp()));
m_extrasDB->Put(m_writeOptions, toSlice(h256(bi.number), ExtraBlockHash), (ldb::Slice)dev::ref(m_blockHashes[h256(bi.number)].rlp()));
for (auto const& h: tas)
m_extrasDB->Put(m_writeOptions, toSlice(h, ExtraTransactionAddress), (ldb::Slice)dev::ref(m_transactionAddresses[h].rlp()));
m_extrasDB->Put(m_writeOptions, toSlice(newHash, ExtraLogBlooms), (ldb::Slice)dev::ref(m_logBlooms[newHash].rlp()));
m_extrasDB->Put(m_writeOptions, toSlice(newHash, ExtraReceipts), (ldb::Slice)dev::ref(m_receipts[newHash].rlp()));
#if ETH_PARANOIA
checkConsistency();
#endif
}
#if ETH_CATCH
catch (Exception const& _e)
{
clog(BlockChainNote) << " Malformed block: " << diagnostic_information(_e);
_e << errinfo_comment("Malformed block ");
throw;
}
#endif
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StructuredLogger::chainReceivedNewBlock(
bi.headerHash(WithoutNonce).abridged(),
bi.nonce.abridged(),
currentHash().abridged(),
"", // TODO: remote id ??
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bi.parentHash.abridged()
);
// cnote << "Parent " << bi.parentHash << " has " << details(bi.parentHash).children.size() << " children.";
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h256s ret;
// This might be the new best block...
h256 last = currentHash();
if (td > details(last).totalDifficulty)
{
ret = treeRoute(last, newHash);
{
WriteGuard l(x_lastBlockHash);
m_lastBlockHash = newHash;
}
m_extrasDB->Put(m_writeOptions, ldb::Slice("best"), ldb::Slice((char const*)&newHash, 32));
clog(BlockChainNote) << " Imported and best" << td << ". Has" << (details(bi.parentHash).children.size() - 1) << "siblings. Route:" << toString(ret);
StructuredLogger::chainNewHead(
bi.headerHash(WithoutNonce).abridged(),
bi.nonce.abridged(),
currentHash().abridged(),
bi.parentHash.abridged()
);
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}
else
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{
clog(BlockChainNote) << " Imported but not best (oTD:" << details(last).totalDifficulty << " > TD:" << td << ")";
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}
return ret;
}
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h256s BlockChain::treeRoute(h256 _from, h256 _to, h256* o_common, bool _pre, bool _post) const
{
// cdebug << "treeRoute" << _from.abridged() << "..." << _to.abridged();
if (!_from || !_to)
{
return h256s();
}
h256s ret;
h256s back;
unsigned fn = details(_from).number;
unsigned tn = details(_to).number;
// cdebug << "treeRoute" << fn << "..." << tn;
while (fn > tn)
{
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if (_pre)
ret.push_back(_from);
_from = details(_from).parent;
fn--;
// cdebug << "from:" << fn << _from.abridged();
}
while (fn < tn)
{
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if (_post)
back.push_back(_to);
_to = details(_to).parent;
tn--;
// cdebug << "to:" << tn << _to.abridged();
}
while (_from != _to)
{
assert(_from);
assert(_to);
_from = details(_from).parent;
_to = details(_to).parent;
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if (_pre)
ret.push_back(_from);
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if (_post)
back.push_back(_to);
fn--;
tn--;
// cdebug << "from:" << fn << _from.abridged() << "; to:" << tn << _to.abridged();
}
if (o_common)
*o_common = _from;
ret.reserve(ret.size() + back.size());
for (auto it = back.cbegin(); it != back.cend(); ++it)
ret.push_back(*it);
return ret;
}
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void BlockChain::noteUsed(h256 const& _h, unsigned _extra) const
{
auto id = CacheID(_h, _extra);
Guard l(x_cacheUsage);
m_cacheUsage[0].insert(id);
if (m_cacheUsage[1].count(id))
m_cacheUsage[1].erase(id);
else
m_inUse.insert(id);
}
template <class T> static unsigned getHashSize(map<h256, T> const& _map)
{
unsigned ret = 0;
for (auto const& i: _map)
ret += i.second.size + 64;
return ret;
}
void BlockChain::updateStats() const
{
{
ReadGuard l1(x_blocks);
m_lastStats.memBlocks = 0;
for (auto const& i: m_blocks)
m_lastStats.memBlocks += i.second.size() + 64;
}
{
ReadGuard l2(x_details);
m_lastStats.memDetails = getHashSize(m_details);
}
{
ReadGuard l5(x_logBlooms);
m_lastStats.memLogBlooms = getHashSize(m_logBlooms);
}
{
ReadGuard l4(x_receipts);
m_lastStats.memReceipts = getHashSize(m_receipts);
}
{
ReadGuard l3(x_blockHashes);
m_lastStats.memBlockHashes = getHashSize(m_blockHashes);
}
{
ReadGuard l6(x_transactionAddresses);
m_lastStats.memTransactionAddresses = getHashSize(m_transactionAddresses);
}
}
void BlockChain::garbageCollect(bool _force)
{
updateStats();
if (!_force && chrono::system_clock::now() < m_lastCollection + c_collectionDuration && m_lastStats.memTotal() < c_maxCacheSize)
return;
if (m_lastStats.memTotal() < c_minCacheSize)
return;
m_lastCollection = chrono::system_clock::now();
Guard l(x_cacheUsage);
WriteGuard l1(x_blocks);
WriteGuard l2(x_details);
WriteGuard l3(x_blockHashes);
WriteGuard l4(x_receipts);
WriteGuard l5(x_logBlooms);
WriteGuard l6(x_transactionAddresses);
for (CacheID const& id: m_cacheUsage.back())
{
m_inUse.erase(id);
// kill i from cache.
switch (id.second)
{
case (unsigned)-1:
m_blocks.erase(id.first);
break;
case ExtraDetails:
m_details.erase(id.first);
break;
case ExtraBlockHash:
m_blockHashes.erase(id.first);
break;
case ExtraReceipts:
m_receipts.erase(id.first);
break;
case ExtraLogBlooms:
m_logBlooms.erase(id.first);
break;
case ExtraTransactionAddress:
m_transactionAddresses.erase(id.first);
break;
}
}
m_cacheUsage.pop_back();
m_cacheUsage.push_front(std::set<CacheID>{});
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}
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void BlockChain::checkConsistency()
{
{
WriteGuard l(x_details);
m_details.clear();
}
ldb::Iterator* it = m_blocksDB->NewIterator(m_readOptions);
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for (it->SeekToFirst(); it->Valid(); it->Next())
if (it->key().size() == 32)
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{
h256 h((byte const*)it->key().data(), h256::ConstructFromPointer);
auto dh = details(h);
auto p = dh.parent;
if (p != h256() && p != m_genesisHash) // TODO: for some reason the genesis details with the children get squished. not sure why.
{
auto dp = details(p);
if (asserts(contains(dp.children, h)))
{
cnote << "Apparently the database is corrupt. Not much we can do at this stage...";
}
if (assertsEqual(dp.number, dh.number - 1))
{
cnote << "Apparently the database is corrupt. Not much we can do at this stage...";
}
}
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}
delete it;
}
h256Set BlockChain::allUnclesFrom(h256 _parent) const
{
// Get all uncles cited given a parent (i.e. featured as uncles/main in parent, parent + 1, ... parent + 5).
h256Set ret;
h256 p = _parent;
for (unsigned i = 0; i < 6 && p != m_genesisHash; ++i, p = details(p).parent)
{
ret.insert(p); // TODO: check: should this be details(p).parent?
auto b = block(p);
for (auto i: RLP(b)[2])
ret.insert(sha3(i.data()));
}
return ret;
}
bool BlockChain::isKnown(h256 _hash) const
{
if (_hash == m_genesisHash)
return true;
{
ReadGuard l(x_blocks);
if (m_blocks.count(_hash))
return true;
}
string d;
m_blocksDB->Get(m_readOptions, ldb::Slice((char const*)&_hash, 32), &d);
return !!d.size();
}
bytes BlockChain::block(h256 _hash) const
{
if (_hash == m_genesisHash)
return m_genesisBlock;
{
ReadGuard l(x_blocks);
auto it = m_blocks.find(_hash);
if (it != m_blocks.end())
return it->second;
}
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string d;
m_blocksDB->Get(m_readOptions, ldb::Slice((char const*)&_hash, 32), &d);
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if (!d.size())
{
cwarn << "Couldn't find requested block:" << _hash.abridged();
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return bytes();
}
WriteGuard l(x_blocks);
m_blocks[_hash].resize(d.size());
memcpy(m_blocks[_hash].data(), d.data(), d.size());
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noteUsed(_hash);
return m_blocks[_hash];
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}