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ethminer
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Merge branch 'develop' into discovery

cl-refactor
subtly 10 years ago
parent
3ebaffa2c1 be6dd3b62b
commit
e541c237ea
17 changed files with 337 additions and 222 deletions
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  1. 49
      alethzero/MainWin.cpp
  2. 2
      libdevcore/Common.cpp
  3. 60
      libdevcrypto/MemoryDB.cpp
  4. 26
      libdevcrypto/MemoryDB.h
  5. 31
      libdevcrypto/OverlayDB.cpp
  6. 48
      libdevcrypto/TrieDB.h
  7. 2
      libethcore/Common.cpp
  8. 115
      libethereum/BlockChain.cpp
  9. 1
      libethereum/BlockDetails.h
  10. 51
      libethereum/BlockQueue.cpp
  11. 18
      libethereum/BlockQueue.h
  12. 93
      libethereum/Client.cpp
  13. 6
      libethereum/Client.h
  14. 4
      libethereum/State.cpp
  15. 3
      libethereum/Transaction.h
  16. 46
      libethereum/TransactionQueue.cpp
  17. 4
      libethereum/TransactionQueue.h

49
alethzero/MainWin.cpp
View File

@ -1097,30 +1097,33 @@ void Main::refreshBlockChain()
blockItem->setSelected(true);
int n = 0;
auto b = bc.block(h);
for (auto const& i: RLP(b)[1])
{
Transaction t(i.data(), CheckTransaction::Everything);
QString s = t.receiveAddress() ?
QString(" %2 %5> %3: %1 [%4]")
.arg(formatBalance(t.value()).c_str())
.arg(render(t.safeSender()))
.arg(render(t.receiveAddress()))
.arg((unsigned)t.nonce())
.arg(ethereum()->codeAt(t.receiveAddress()).size() ? '*' : '-') :
QString(" %2 +> %3: %1 [%4]")
.arg(formatBalance(t.value()).c_str())
.arg(render(t.safeSender()))
.arg(render(right160(sha3(rlpList(t.safeSender(), t.nonce())))))
.arg((unsigned)t.nonce());
QListWidgetItem* txItem = new QListWidgetItem(s, ui->blocks);
auto hba = QByteArray((char const*)h.data(), h.size);
txItem->setData(Qt::UserRole, hba);
txItem->setData(Qt::UserRole + 1, n);
if (oldSelected == hba)
txItem->setSelected(true);
n++;
try {
auto b = bc.block(h);
for (auto const& i: RLP(b)[1])
{
Transaction t(i.data(), CheckTransaction::Everything);
QString s = t.receiveAddress() ?
QString(" %2 %5> %3: %1 [%4]")
.arg(formatBalance(t.value()).c_str())
.arg(render(t.safeSender()))
.arg(render(t.receiveAddress()))
.arg((unsigned)t.nonce())
.arg(ethereum()->codeAt(t.receiveAddress()).size() ? '*' : '-') :
QString(" %2 +> %3: %1 [%4]")
.arg(formatBalance(t.value()).c_str())
.arg(render(t.safeSender()))
.arg(render(right160(sha3(rlpList(t.safeSender(), t.nonce())))))
.arg((unsigned)t.nonce());
QListWidgetItem* txItem = new QListWidgetItem(s, ui->blocks);
auto hba = QByteArray((char const*)h.data(), h.size);
txItem->setData(Qt::UserRole, hba);
txItem->setData(Qt::UserRole + 1, n);
if (oldSelected == hba)
txItem->setSelected(true);
n++;
}
}
catch (...) {}
};
if (filters.empty())

2
libdevcore/Common.cpp
View File

@ -27,7 +27,7 @@ using namespace dev;
namespace dev
{
char const* Version = "0.9.13";
char const* Version = "0.9.14";
}

60
libdevcrypto/MemoryDB.cpp
View File

@ -32,51 +32,55 @@ const char* DBWarn::name() { return "TDB"; }
std::map<h256, std::string> MemoryDB::get() const
{
if (!m_enforceRefs)
return m_over;
std::map<h256, std::string> ret;
for (auto const& i: m_refCount)
if (i.second)
ret.insert(*m_over.find(i.first));
for (auto const& i: m_main)
if (!m_enforceRefs || i.second.second > 0)
ret.insert(make_pair(i.first, i.second.first));
return ret;
}
std::string MemoryDB::lookup(h256 _h) const
std::string MemoryDB::lookup(h256 const& _h) const
{
auto it = m_over.find(_h);
if (it != m_over.end())
auto it = m_main.find(_h);
if (it != m_main.end())
{
if (!m_enforceRefs || (m_refCount.count(it->first) && m_refCount.at(it->first)))
return it->second;
if (!m_enforceRefs || it->second.second > 0)
return it->second.first;
// else if (m_enforceRefs && m_refCount.count(it->first) && !m_refCount.at(it->first))
// cnote << "Lookup required for value with no refs. Let's hope it's in the DB." << _h;
}
return std::string();
}
bool MemoryDB::exists(h256 _h) const
bool MemoryDB::exists(h256 const& _h) const
{
auto it = m_over.find(_h);
if (it != m_over.end() && (!m_enforceRefs || (m_refCount.count(it->first) && m_refCount.at(it->first))))
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 _h, bytesConstRef _v)
void MemoryDB::insert(h256 const& _h, bytesConstRef _v)
{
m_over[_h] = _v.toString();
m_refCount[_h]++;
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_refCount[_h];
dbdebug << "INST" << _h << "=>" << m_main[_h].second;
#endif
}
bool MemoryDB::kill(h256 _h)
bool MemoryDB::kill(h256 const& _h)
{
if (m_refCount.count(_h))
if (m_main.count(_h))
{
if (m_refCount[_h] > 0)
--m_refCount[_h];
if (m_main[_h].second > 0)
m_main[_h].second--;
#if ETH_PARANOIA
else
{
@ -85,7 +89,7 @@ bool MemoryDB::kill(h256 _h)
dbdebug << "NOKILL-WAS" << _h;
return false;
}
dbdebug << "KILL" << _h << "=>" << m_refCount[_h];
dbdebug << "KILL" << _h << "=>" << m_main[_h].second;
return true;
}
else
@ -101,16 +105,18 @@ bool MemoryDB::kill(h256 _h)
void MemoryDB::purge()
{
for (auto const& i: m_refCount)
if (!i.second)
m_over.erase(i.first);
for (auto it = m_main.begin(); it != m_main.end(); )
if (it->second.second)
++it;
else
it = m_main.erase(it);
}
set<h256> MemoryDB::keys() const
{
set<h256> ret;
for (auto const& i: m_refCount)
if (i.second && h128(i.first.ref().cropped(0, 16)))
for (auto const& i: m_main)
if (i.second.second)
ret.insert(i.first);
return ret;
}

26
libdevcrypto/MemoryDB.h
View File

@ -44,28 +44,24 @@ class MemoryDB
public:
MemoryDB() {}
void clear() { m_over.clear(); }
void clear() { m_main.clear(); } // WARNING !!!! didn't originally clear m_refCount!!!
std::map<h256, std::string> get() const;
std::string lookup(h256 _h) const;
bool exists(h256 _h) const;
void insert(h256 _h, bytesConstRef _v);
bool kill(h256 _h);
std::string lookup(h256 const& _h) const;
bool exists(h256 const& _h) const;
void insert(h256 const& _h, bytesConstRef _v);
bool kill(h256 const& _h);
void purge();
bytes lookupAux(h256 _h) const { auto h = aux(_h); return m_aux.count(h) ? m_aux.at(h) : bytes(); }
void removeAux(h256 _h) { m_auxActive.erase(aux(_h)); }
void insertAux(h256 _h, bytesConstRef _v) { auto h = aux(_h); m_auxActive.insert(h); m_aux[h] = _v.toBytes(); }
bytes lookupAux(h256 const& _h) const { try { return m_aux.at(_h).first; } catch (...) { return bytes(); } }
void removeAux(h256 const& _h) { m_aux[_h].second = false; }
void insertAux(h256 const& _h, bytesConstRef _v) { m_aux[_h] = make_pair(_v.toBytes(), true); }
std::set<h256> keys() const;
protected:
static h256 aux(h256 _k) { return h256(sha3(_k).ref().cropped(0, 24), h256::AlignLeft); }
std::map<h256, std::string> m_over;
std::map<h256, unsigned> m_refCount;
std::set<h256> m_auxActive;
std::map<h256, bytes> m_aux;
std::map<h256, std::pair<std::string, unsigned>> m_main;
std::map<h256, std::pair<bytes, bool>> m_aux;
mutable bool m_enforceRefs = false;
};
@ -83,7 +79,7 @@ private:
inline std::ostream& operator<<(std::ostream& _out, MemoryDB const& _m)
{
for (auto i: _m.get())
for (auto const& i: _m.get())
{
_out << i.first << ": ";
_out << RLP(i.second);

31
libdevcrypto/OverlayDB.cpp
View File

@ -20,6 +20,7 @@
*/
#include <leveldb/db.h>
#include <leveldb/write_batch.h>
#include <libdevcore/Common.h>
#include "OverlayDB.h"
using namespace std;
@ -38,23 +39,24 @@ void OverlayDB::commit()
{
if (m_db)
{
ldb::WriteBatch batch;
// cnote << "Committing nodes to disk DB:";
for (auto const& i: m_over)
for (auto const& i: m_main)
{
// cnote << i.first << "#" << m_refCount[i.first];
if (m_refCount[i.first])
m_db->Put(m_writeOptions, ldb::Slice((char const*)i.first.data(), i.first.size), ldb::Slice(i.second.data(), i.second.size()));
// cnote << i.first << "#" << m_main[i.first].second;
if (i.second.second)
batch.Put(ldb::Slice((char const*)i.first.data(), i.first.size), ldb::Slice(i.second.first.data(), i.second.first.size()));
}
for (auto const& i: m_auxActive)
if (m_aux.count(i))
for (auto const& i: m_aux)
if (i.second.second)
{
m_db->Put(m_writeOptions, i.ref(), bytesConstRef(&m_aux[i]));
m_aux.erase(i);
bytes b = i.first.asBytes();
b.push_back(255); // for aux
batch.Put(bytesConstRef(&b), bytesConstRef(&i.second.first));
}
m_auxActive.clear();
m_db->Write(m_writeOptions, &batch);
m_aux.clear();
m_over.clear();
m_refCount.clear();
m_main.clear();
}
}
@ -64,7 +66,9 @@ bytes OverlayDB::lookupAux(h256 _h) const
if (!ret.empty())
return ret;
std::string v;
m_db->Get(m_readOptions, aux(_h).ref(), &v);
bytes b = _h.asBytes();
b.push_back(255); // for aux
m_db->Get(m_readOptions, bytesConstRef(&b), &v);
if (v.empty())
cwarn << "Aux not found: " << _h;
return asBytes(v);
@ -72,8 +76,7 @@ bytes OverlayDB::lookupAux(h256 _h) const
void OverlayDB::rollback()
{
m_over.clear();
m_refCount.clear();
m_main.clear();
}
std::string OverlayDB::lookup(h256 _h) const

48
libdevcrypto/TrieDB.h
View File

@ -47,6 +47,11 @@ struct InvalidTrie: virtual dev::Exception {};
extern const h256 c_shaNull;
extern const h256 EmptyTrie;
enum class Verification {
Skip,
Normal
};
/**
* @brief Merkle Patricia Tree "Trie": a modifed base-16 Radix tree.
* This version uses a database backend.
@ -69,23 +74,26 @@ public:
using DB = _DB;
GenericTrieDB(DB* _db = nullptr): m_db(_db) {}
GenericTrieDB(DB* _db, h256 _root) { open(_db, _root); }
GenericTrieDB(DB* _db, h256 const& _root, Verification _v = Verification::Normal) { open(_db, _root, _v); }
~GenericTrieDB() {}
void open(DB* _db) { m_db = _db; }
void open(DB* _db, h256 _root) { m_db = _db; setRoot(_root); }
void open(DB* _db, h256 const& _root, Verification _v = Verification::Normal) { m_db = _db; setRoot(_root, _v); }
void init() { setRoot(insertNode(&RLPNull)); assert(node(m_root).size()); }
void setRoot(h256 _root)
void setRoot(h256 const& _root, Verification _v = Verification::Normal)
{
m_root = _root;
if (m_root == c_shaNull && !m_db->exists(m_root))
init();
if (_v == Verification::Normal)
{
if (m_root == c_shaNull && !m_db->exists(m_root))
init();
/*std::cout << "Setting root to " << _root << " (patched to " << m_root << ")" << std::endl;*/
if (!node(m_root).size())
BOOST_THROW_EXCEPTION(RootNotFound());
/*std::cout << "Setting root to " << _root << " (patched to " << m_root << ")" << std::endl;*/
if (!node(m_root).size())
BOOST_THROW_EXCEPTION(RootNotFound());
}
}
/// True if the trie is uninitialised (i.e. that the DB doesn't contain the root node).
@ -93,7 +101,7 @@ public:
/// True if the trie is initialised but empty (i.e. that the DB contains the root node which is empty).
bool isEmpty() const { return m_root == c_shaNull && node(m_root).size(); }
h256 root() const { if (!node(m_root).size()) BOOST_THROW_EXCEPTION(BadRoot()); /*std::cout << "Returning root as " << ret << " (really " << m_root << ")" << std::endl;*/ return m_root; } // patch the root in the case of the empty trie. TODO: handle this properly.
h256 const& root() const { if (!node(m_root).size()) BOOST_THROW_EXCEPTION(BadRoot()); /*std::cout << "Returning root as " << ret << " (really " << m_root << ")" << std::endl;*/ return m_root; } // patch the root in the case of the empty trie. TODO: handle this properly.
void debugPrint() {}
@ -301,7 +309,7 @@ public:
using KeyType = _KeyType;
SpecificTrieDB(DB* _db = nullptr): Generic(_db) {}
SpecificTrieDB(DB* _db, h256 _root): Generic(_db, _root) {}
SpecificTrieDB(DB* _db, h256 _root, Verification _v = Verification::Normal): Generic(_db, _root, _v) {}
std::string operator[](KeyType _k) const { return at(_k); }
@ -349,7 +357,7 @@ public:
using DB = _DB;
HashedGenericTrieDB(DB* _db = nullptr): Super(_db) {}
HashedGenericTrieDB(DB* _db, h256 _root): Super(_db, _root) {}
HashedGenericTrieDB(DB* _db, h256 _root, Verification _v = Verification::Normal): Super(_db, _root, _v) {}
using Super::open;
using Super::init;
@ -402,20 +410,20 @@ class FatGenericTrieDB: public GenericTrieDB<DB>
public:
FatGenericTrieDB(DB* _db): Super(_db), m_secure(_db) {}
FatGenericTrieDB(DB* _db, h256 _root) { open(_db, _root); }
FatGenericTrieDB(DB* _db, h256 _root, Verification _v = Verification::Normal) { open(_db, _root, _v); }
void open(DB* _db, h256 _root) { Super::open(_db); m_secure.open(_db); setRoot(_root); }
void open(DB* _db, h256 _root, Verification _v = Verification::Normal) { Super::open(_db); m_secure.open(_db); setRoot(_root, _v); }
void init() { Super::init(); m_secure.init(); syncRoot(); }
void setRoot(h256 _root)
void setRoot(h256 _root, Verification _v = Verification::Normal)
{
if (!m_secure.isNull())
Super::db()->removeAux(m_secure.root());
m_secure.setRoot(_root);
m_secure.setRoot(_root, _v);
auto rb = Super::db()->lookupAux(m_secure.root());
auto r = h256(rb);
Super::setRoot(r);
Super::setRoot(r, _v);
}
h256 root() const { return m_secure.root(); }
@ -853,8 +861,8 @@ template <class DB> bytes GenericTrieDB<DB>::mergeAt(RLP const& _orig, NibbleSli
template <class DB> void GenericTrieDB<DB>::mergeAtAux(RLPStream& _out, RLP const& _orig, NibbleSlice _k, bytesConstRef _v)
{
#if ETH_PARANOIA
tdebug << "mergeAtAux " << _orig << _k << sha3(_orig.data()) << ((_orig.isData() && _orig.size() <= 32) ? _orig.toHash<h256>() : std::string());
#if ETH_PARANOIA || !ETH_TRUE
tdebug << "mergeAtAux " << _orig << _k << sha3(_orig.data()) << ((_orig.isData() && _orig.size() <= 32) ? _orig.toHash<h256>().abridged() : std::string());
#endif
RLP r = _orig;
@ -1008,8 +1016,8 @@ template <class DB> bytes GenericTrieDB<DB>::deleteAt(RLP const& _orig, NibbleSl
template <class DB> bool GenericTrieDB<DB>::deleteAtAux(RLPStream& _out, RLP const& _orig, NibbleSlice _k)
{
#if ETH_PARANOIA
tdebug << "deleteAtAux " << _orig << _k << sha3(_orig.data()) << ((_orig.isData() && _orig.size() <= 32) ? _orig.toHash<h256>() : std::string());
#if ETH_PARANOIA || !ETH_TRUE
tdebug << "deleteAtAux " << _orig << _k << sha3(_orig.data()) << ((_orig.isData() && _orig.size() <= 32) ? _orig.toHash<h256>().abridged() : std::string());
#endif
bytes b = _orig.isEmpty() ? bytes() : deleteAt(_orig.isList() ? _orig : RLP(node(_orig.toHash<h256>())), _k);

2
libethcore/Common.cpp
View File

@ -36,7 +36,7 @@ namespace eth
{
const unsigned c_protocolVersion = 60;
const unsigned c_minorProtocolVersion = 1;
const unsigned c_minorProtocolVersion = 2;
const unsigned c_databaseBaseVersion = 9;
#if ETH_FATDB
const unsigned c_databaseVersionModifier = 1;

115
libethereum/BlockChain.cpp
View File

@ -25,6 +25,7 @@
#include <gperftools/profiler.h>
#endif
#include <leveldb/db.h>
#include <leveldb/write_batch.h>
#include <boost/timer.hpp>
#include <boost/filesystem.hpp>
#include <test/JsonSpiritHeaders.h>
@ -46,7 +47,7 @@ using namespace dev::eth;
namespace js = json_spirit;
#define ETH_CATCH 1
#define ETH_TIMED_IMPORTS 0
#define ETH_TIMED_IMPORTS 1
#ifdef _WIN32
const char* BlockChainDebug::name() { return EthBlue "8" EthWhite " <>"; }
@ -302,7 +303,7 @@ LastHashes BlockChain::lastHashes(unsigned _n) const
tuple<h256s, h256s, bool> BlockChain::sync(BlockQueue& _bq, OverlayDB const& _stateDB, unsigned _max)
{
_bq.tick(*this);
// _bq.tick(*this);
vector<bytes> blocks;
_bq.drain(blocks, _max);
@ -442,6 +443,11 @@ ImportRoute BlockChain::import(bytes const& _block, OverlayDB const& _db, Import
t.restart();
#endif
ldb::WriteBatch blocksBatch;
ldb::WriteBatch extrasBatch;
h256 newLastBlockHash = currentHash();
unsigned newLastBlockNumber = number();
u256 td;
#if ETH_CATCH
try
@ -470,44 +476,29 @@ ImportRoute BlockChain::import(bytes const& _block, OverlayDB const& _db, Import
#if ETH_PARANOIA
checkConsistency();
#endif
// All ok - insert into DB
{
// ensure parent is cached for later addition.
// TODO: this is a bit horrible would be better refactored into an enveloping UpgradableGuard
// together with an "ensureCachedWithUpdatableLock(l)" method.
// This is safe in practice since the caches don't get flushed nearly often enough to be
// done here.
details(bi.parentHash);
WriteGuard l(x_details);
m_details[bi.hash()] = BlockDetails((unsigned)pd.number + 1, td, bi.parentHash, {});
// ensure parent is cached for later addition.
// TODO: this is a bit horrible would be better refactored into an enveloping UpgradableGuard
// together with an "ensureCachedWithUpdatableLock(l)" method.
// This is safe in practice since the caches don't get flushed nearly often enough to be
// done here.
details(bi.parentHash);
ETH_WRITE_GUARDED(x_details)
m_details[bi.parentHash].children.push_back(bi.hash());
}
{
WriteGuard l(x_logBlooms);
m_logBlooms[bi.hash()] = blb;
}
{
WriteGuard l(x_receipts);
m_receipts[bi.hash()] = br;
}
#if ETH_TIMED_IMPORTS
collation = t.elapsed();
t.restart();
#endif
{
ReadGuard l1(x_blocks);
ReadGuard l2(x_details);
ReadGuard l4(x_receipts);
ReadGuard l5(x_logBlooms);
m_extrasDB->Put(m_writeOptions, toSlice(bi.hash(), ExtraDetails), (ldb::Slice)dev::ref(m_details[bi.hash()].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(bi.hash(), ExtraLogBlooms), (ldb::Slice)dev::ref(m_logBlooms[bi.hash()].rlp()));
m_extrasDB->Put(m_writeOptions, toSlice(bi.hash(), ExtraReceipts), (ldb::Slice)dev::ref(m_receipts[bi.hash()].rlp()));
m_blocksDB->Put(m_writeOptions, toSlice(bi.hash()), (ldb::Slice)ref(_block));
}
blocksBatch.Put(toSlice(bi.hash()), (ldb::Slice)ref(_block));
ETH_READ_GUARDED(x_details)
extrasBatch.Put(toSlice(bi.parentHash, ExtraDetails), (ldb::Slice)dev::ref(m_details[bi.parentHash].rlp()));
extrasBatch.Put(toSlice(bi.hash(), ExtraDetails), (ldb::Slice)dev::ref(BlockDetails((unsigned)pd.number + 1, td, bi.parentHash, {}).rlp()));
extrasBatch.Put(toSlice(bi.hash(), ExtraLogBlooms), (ldb::Slice)dev::ref(blb.rlp()));
extrasBatch.Put(toSlice(bi.hash(), ExtraReceipts), (ldb::Slice)dev::ref(br.rlp()));
#if ETH_TIMED_IMPORTS
writing = t.elapsed();
@ -552,8 +543,11 @@ ImportRoute BlockChain::import(bytes const& _block, OverlayDB const& _db, Import
h256 last = currentHash();
if (td > details(last).totalDifficulty)
{
// don't include bi.hash() in treeRoute, since it's not yet in details DB...
// just tack it on afterwards.
unsigned commonIndex;
tie(route, common, commonIndex) = treeRoute(last, bi.hash());
tie(route, common, commonIndex) = treeRoute(last, bi.parentHash);
route.push_back(bi.hash());
// Most of the time these two will be equal - only when we're doing a chain revert will they not be
if (common != last)
@ -564,20 +558,24 @@ ImportRoute BlockChain::import(bytes const& _block, OverlayDB const& _db, Import
// Go through ret backwards until hash != last.parent and update m_transactionAddresses, m_blockHashes
for (auto i = route.rbegin(); i != route.rend() && *i != common; ++i)
{
auto b = block(*i);
BlockInfo bi(b);
BlockInfo tbi;
if (*i == bi.hash())
tbi = bi;
else
tbi = BlockInfo(block(*i));
// Collate logs into blooms.
h256s alteredBlooms;
{
LogBloom blockBloom = bi.logBloom;
blockBloom.shiftBloom<3>(sha3(bi.coinbaseAddress.ref()));
LogBloom blockBloom = tbi.logBloom;
blockBloom.shiftBloom<3>(sha3(tbi.coinbaseAddress.ref()));
// Pre-memoize everything we need before locking x_blocksBlooms
for (unsigned level = 0, index = (unsigned)bi.number; level < c_bloomIndexLevels; level++, index /= c_bloomIndexSize)
for (unsigned level = 0, index = (unsigned)tbi.number; level < c_bloomIndexLevels; level++, index /= c_bloomIndexSize)
blocksBlooms(chunkId(level, index / c_bloomIndexSize));
WriteGuard l(x_blocksBlooms);
for (unsigned level = 0, index = (unsigned)bi.number; level < c_bloomIndexLevels; level++, index /= c_bloomIndexSize)
for (unsigned level = 0, index = (unsigned)tbi.number; level < c_bloomIndexLevels; level++, index /= c_bloomIndexSize)
{
unsigned i = index / c_bloomIndexSize;
unsigned o = index % c_bloomIndexSize;
@ -588,38 +586,26 @@ ImportRoute BlockChain::import(bytes const& _block, OverlayDB const& _db, Import
// Collate transaction hashes and remember who they were.
h256s newTransactionAddresses;
{
RLP blockRLP(b);
bytes blockBytes;
RLP blockRLP(*i == bi.hash() ? _block : (blockBytes = block(*i)));
TransactionAddress ta;
ta.blockHash = bi.hash();
WriteGuard l(x_transactionAddresses);
ta.blockHash = tbi.hash();
for (ta.index = 0; ta.index < blockRLP[1].itemCount(); ++ta.index)
{
newTransactionAddresses.push_back(sha3(blockRLP[1][ta.index].data()));
m_transactionAddresses[newTransactionAddresses.back()] = ta;
}
}
{
WriteGuard l(x_blockHashes);
m_blockHashes[h256(bi.number)].value = bi.hash();
extrasBatch.Put(toSlice(sha3(blockRLP[1][ta.index].data()), ExtraTransactionAddress), (ldb::Slice)dev::ref(ta.rlp()));
}
// Update database with them.
ReadGuard l1(x_blocksBlooms);
ReadGuard l3(x_blockHashes);
ReadGuard l6(x_transactionAddresses);
for (auto const& h: alteredBlooms)
m_extrasDB->Put(m_writeOptions, toSlice(h, ExtraBlocksBlooms), (ldb::Slice)dev::ref(m_blocksBlooms[h].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: newTransactionAddresses)
m_extrasDB->Put(m_writeOptions, toSlice(h, ExtraTransactionAddress), (ldb::Slice)dev::ref(m_transactionAddresses[h].rlp()));
extrasBatch.Put(toSlice(h, ExtraBlocksBlooms), (ldb::Slice)dev::ref(m_blocksBlooms[h].rlp()));
extrasBatch.Put(toSlice(h256(tbi.number), ExtraBlockHash), (ldb::Slice)dev::ref(BlockHash(tbi.hash()).rlp()));
}
// FINALLY! change our best hash.
{
WriteGuard l(x_lastBlockHash);
m_lastBlockHash = bi.hash();
m_lastBlockNumber = (unsigned)bi.number;
m_extrasDB->Put(m_writeOptions, ldb::Slice("best"), ldb::Slice((char const*)&(bi.hash()), 32));
newLastBlockHash = bi.hash();
newLastBlockNumber = (unsigned)bi.number;
extrasBatch.Put(ldb::Slice("best"), ldb::Slice((char const*)&(bi.hash()), 32));
}
clog(BlockChainNote) << " Imported and best" << td << " (#" << bi.number << "). Has" << (details(bi.parentHash).children.size() - 1) << "siblings. Route:" << route;
@ -637,6 +623,15 @@ ImportRoute BlockChain::import(bytes const& _block, OverlayDB const& _db, Import
clog(BlockChainChat) << " Imported but not best (oTD:" << details(last).totalDifficulty << " > TD:" << td << ")";
}
m_blocksDB->Write(m_writeOptions, &blocksBatch);
m_extrasDB->Write(m_writeOptions, &extrasBatch);
ETH_WRITE_GUARDED(x_lastBlockHash)
{
m_lastBlockHash = newLastBlockHash;
m_lastBlockNumber = newLastBlockNumber;
}
#if ETH_TIMED_IMPORTS
checkBest = t.elapsed();
cnote << "Import took:" << total.elapsed();

1
libethereum/BlockDetails.h
View File

@ -92,6 +92,7 @@ struct BlockReceipts
struct BlockHash
{
BlockHash() {}
BlockHash(h256 const& _h): value(_h) {}
BlockHash(RLP const& _r) { value = _r.toHash<h256>(); }
bytes rlp() const { return dev::rlp(value); }

51
libethereum/BlockQueue.cpp
View File

@ -74,17 +74,19 @@ ImportResult BlockQueue::import(bytesConstRef _block, BlockChain const& _bc, boo
}
UpgradeGuard ul(l);
invariants_WITH_LOCK();
// Check it's not in the future
(void)_isOurs;
if (bi.timestamp > (u256)time(0)/* && !_isOurs*/)
{
m_future.insert(make_pair((unsigned)bi.timestamp, _block.toBytes()));
m_future.insert(make_pair((unsigned)bi.timestamp, make_pair(h, _block.toBytes())));
char buf[24];
time_t bit = (unsigned)bi.timestamp;
if (strftime(buf, 24, "%X", localtime(&bit)) == 0)
buf[0] = '\0'; // empty if case strftime fails
cblockq << "OK - queued for future [" << bi.timestamp << "vs" << time(0) << "] - will wait until" << buf;
invariants_WITH_LOCK();
return ImportResult::FutureTime;
}
else
@ -94,6 +96,7 @@ ImportResult BlockQueue::import(bytesConstRef _block, BlockChain const& _bc, boo
{
m_knownBad.insert(bi.hash());
// bad parent; this is bad too, note it as such
invariants_WITH_LOCK();
return ImportResult::BadChain;
}
else if (!m_readySet.count(bi.parentHash) && !m_drainingSet.count(bi.parentHash) && !_bc.isKnown(bi.parentHash))
@ -103,16 +106,18 @@ ImportResult BlockQueue::import(bytesConstRef _block, BlockChain const& _bc, boo
m_unknown.insert(make_pair(bi.parentHash, make_pair(h, _block.toBytes())));
m_unknownSet.insert(h);
invariants_WITH_LOCK();
return ImportResult::UnknownParent;
}
else
{
// If valid, append to blocks.
cblockq << "OK - ready for chain insertion.";
m_ready.push_back(_block.toBytes());
m_ready.push_back(make_pair(h, _block.toBytes()));
m_readySet.insert(h);
invariants_WITH_LOCK();
noteReadyWithoutWriteGuard(h);
noteReady_WITH_LOCK(h);
m_onReady();
return ImportResult::Success;
}
@ -122,27 +127,33 @@ ImportResult BlockQueue::import(bytesConstRef _block, BlockChain const& _bc, boo
bool BlockQueue::doneDrain(h256s const& _bad)
{
WriteGuard l(m_lock);
invariants_WITH_LOCK();
m_drainingSet.clear();
if (_bad.size())
{
vector<bytes> old;
vector<pair<h256, bytes>> old;
swap(m_ready, old);
for (auto& b: old)
{
BlockInfo bi(b);
BlockInfo bi(b.second);
if (m_knownBad.count(bi.parentHash))
m_knownBad.insert(bi.hash());
{
m_knownBad.insert(b.first);
m_readySet.erase(b.first);
}
else
m_ready.push_back(std::move(b));
}
}
m_knownBad += _bad;
// GAA!!!! NEVER EMPTY?!?!?! TODO: remove items from readySet!
invariants_WITH_LOCK();
return !m_readySet.empty();
}
void BlockQueue::tick(BlockChain const& _bc)
{
vector<bytes> todo;
vector<pair<h256, bytes>> todo;
{
UpgradableGuard l(m_lock);
if (m_future.empty())
@ -158,16 +169,18 @@ void BlockQueue::tick(BlockChain const& _bc)
{
UpgradeGuard l2(l);
invariants_WITH_LOCK();
auto end = m_future.lower_bound(t);
for (auto i = m_future.begin(); i != end; ++i)
todo.push_back(move(i->second));
m_future.erase(m_future.begin(), end);
invariants_WITH_LOCK();
}
}
cblockq << "Importing" << todo.size() << "past-future blocks.";
for (auto const& b: todo)
import(&b, _bc);
import(&b.second, _bc);
}
template <class T> T advanced(T _t, unsigned _n)
@ -194,25 +207,34 @@ QueueStatus BlockQueue::blockStatus(h256 const& _h) const
void BlockQueue::drain(std::vector<bytes>& o_out, unsigned _max)
{
WriteGuard l(m_lock);
invariants_WITH_LOCK();
if (m_drainingSet.empty())
{
o_out.resize(min<unsigned>(_max, m_ready.size()));
for (unsigned i = 0; i < o_out.size(); ++i)
swap(o_out[i], m_ready[i]);
swap(o_out[i], m_ready[i].second);
m_ready.erase(m_ready.begin(), advanced(m_ready.begin(), o_out.size()));
for (auto const& bs: o_out)
{
auto h = sha3(bs);
// TODO: @optimise use map<h256, bytes> rather than vector<bytes> & set<h256>.
auto h = BlockInfo::headerHash(bs);
m_drainingSet.insert(h);
m_readySet.erase(h);
}
// swap(o_out, m_ready);
// swap(m_drainingSet, m_readySet);
}
invariants_WITH_LOCK();
}
void BlockQueue::noteReadyWithoutWriteGuard(h256 _good)
void BlockQueue::invariants_WITH_LOCK() const
{
assert(m_readySet.size() == m_ready.size());
}
void BlockQueue::noteReady_WITH_LOCK(h256 const& _good)
{
invariants_WITH_LOCK();
list<h256> goodQueue(1, _good);
while (!goodQueue.empty())
{
@ -220,7 +242,7 @@ void BlockQueue::noteReadyWithoutWriteGuard(h256 _good)
goodQueue.pop_front();
for (auto it = r.first; it != r.second; ++it)
{
m_ready.push_back(it->second.second);
m_ready.push_back(it->second);
auto newReady = it->second.first;
m_unknownSet.erase(newReady);
m_readySet.insert(newReady);
@ -228,16 +250,19 @@ void BlockQueue::noteReadyWithoutWriteGuard(h256 _good)
}
m_unknown.erase(r.first, r.second);
}
invariants_WITH_LOCK();
}
void BlockQueue::retryAllUnknown()
{
invariants_WITH_LOCK();
for (auto it = m_unknown.begin(); it != m_unknown.end(); ++it)
{
m_ready.push_back(it->second.second);
m_ready.push_back(it->second);
auto newReady = it->second.first;
m_unknownSet.erase(newReady);
m_readySet.insert(newReady);
}
m_unknown.clear();
invariants_WITH_LOCK();
}

18
libethereum/BlockQueue.h
View File

@ -78,7 +78,7 @@ public:
bool doneDrain(h256s const& _knownBad = h256s());
/// Notify the queue that the chain has changed and a new block has attained 'ready' status (i.e. is in the chain).
void noteReady(h256 _b) { WriteGuard l(m_lock); noteReadyWithoutWriteGuard(_b); }
void noteReady(h256 const& _b) { WriteGuard l(m_lock); noteReady_WITH_LOCK(_b); }
/// Force a retry of all the blocks with unknown parents.
void retryAllUnknown();
@ -87,7 +87,7 @@ public:
std::pair<unsigned, unsigned> items() const { ReadGuard l(m_lock); return std::make_pair(m_ready.size(), m_unknown.size()); }
/// Clear everything.
void clear() { WriteGuard l(m_lock); m_readySet.clear(); m_drainingSet.clear(); m_ready.clear(); m_unknownSet.clear(); m_unknown.clear(); m_future.clear(); }
void clear() { WriteGuard l(m_lock); invariants_WITH_LOCK(); m_readySet.clear(); m_drainingSet.clear(); m_ready.clear(); m_unknownSet.clear(); m_unknown.clear(); m_future.clear(); invariants_WITH_LOCK(); }
/// Return first block with an unknown parent.
h256 firstUnknown() const { ReadGuard l(m_lock); return m_unknownSet.size() ? *m_unknownSet.begin() : h256(); }
@ -101,18 +101,18 @@ public:
template <class T> Handler onReady(T const& _t) { return m_onReady.add(_t); }
private:
void noteReadyWithoutWriteGuard(h256 _b);
void notePresentWithoutWriteGuard(bytesConstRef _block);
void noteReady_WITH_LOCK(h256 const& _b);
void invariants_WITH_LOCK() const;
mutable boost::shared_mutex m_lock; ///< General lock.
std::set<h256> m_readySet; ///< All blocks ready for chain-import.
std::set<h256> m_drainingSet; ///< All blocks being imported.
std::vector<bytes> m_ready; ///< List of blocks, in correct order, ready for chain-import.
std::set<h256> m_readySet; ///< All blocks ready for chain-import.
std::vector<std::pair<h256, bytes>> m_ready; ///< List of blocks, in correct order, ready for chain-import.
std::set<h256> m_unknownSet; ///< Set of all blocks whose parents are not ready/in-chain.
std::multimap<h256, std::pair<h256, bytes>> m_unknown; ///< For transactions that have an unknown parent; we map their parent hash to the block stuff, and insert once the block appears.
std::multimap<unsigned, bytes> m_future; ///< Set of blocks that are not yet valid.
std::multimap<h256, std::pair<h256, bytes>> m_unknown; ///< For blocks that have an unknown parent; we map their parent hash to the block stuff, and insert once the block appears.
std::set<h256> m_knownBad; ///< Set of blocks that we know will never be valid.
Signal m_onReady; ///< Called when a subsequent call to import transactions will return a non-empty container. Be nice and exit fast.
std::multimap<unsigned, std::pair<h256, bytes>> m_future;///< Set of blocks that are not yet valid.
Signal m_onReady; ///< Called when a subsequent call to import blocks will return a non-empty container. Be nice and exit fast.
};
}

93
libethereum/Client.cpp
View File

@ -36,6 +36,12 @@ using namespace dev;
using namespace dev::eth;
using namespace p2p;
namespace dev
{
struct TimerHelper { TimerHelper(char const* _id): id(_id) {} ~TimerHelper() { cdebug << "Timer" << id << t.elapsed() << "s"; } boost::timer t; char const* id; };
#define DEV_TIMED(S) for (::std::pair<::dev::TimerHelper, bool> __eth_t(#S, true); __eth_t.second; __eth_t.second = false)
}
VersionChecker::VersionChecker(string const& _dbPath):
m_path(_dbPath.size() ? _dbPath : Defaults::dbPath())
{
@ -246,9 +252,13 @@ void Client::startedWorking()
ETH_WRITE_GUARDED(x_preMine)
m_preMine.sync(m_bc);
ETH_WRITE_GUARDED(x_postMine)
ETH_READ_GUARDED(x_preMine)
ETH_READ_GUARDED(x_preMine)
{
ETH_WRITE_GUARDED(x_working)
m_working = m_preMine;
ETH_WRITE_GUARDED(x_postMine)
m_postMine = m_preMine;
}
}
void Client::doneWorking()
@ -257,9 +267,13 @@ void Client::doneWorking()
// TODO: currently it contains keys for *all* blocks. Make it remove old ones.
ETH_WRITE_GUARDED(x_preMine)
m_preMine.sync(m_bc);
ETH_WRITE_GUARDED(x_postMine)
ETH_READ_GUARDED(x_preMine)
ETH_READ_GUARDED(x_preMine)
{
ETH_WRITE_GUARDED(x_working)
m_working = m_preMine;
ETH_WRITE_GUARDED(x_postMine)
m_postMine = m_preMine;
}
}
void Client::killChain()
@ -453,18 +467,20 @@ ProofOfWork::WorkPackage Client::getWork()
bool Client::submitWork(ProofOfWork::Solution const& _solution)
{
bytes newBlock;
{
WriteGuard l(x_postMine);
if (!m_postMine.completeMine<ProofOfWork>(_solution))
DEV_TIMED(working) ETH_WRITE_GUARDED(x_working)
if (!m_working.completeMine<ProofOfWork>(_solution))
return false;
newBlock = m_postMine.blockData();
// OPTIMISE: very inefficient to not utilise the existing OverlayDB in m_postMine that contains all trie changes.
ETH_READ_GUARDED(x_working)
{
DEV_TIMED(post) ETH_WRITE_GUARDED(x_postMine)
m_postMine = m_working;
newBlock = m_working.blockData();
}
// OPTIMISE: very inefficient to not utilise the existing OverlayDB in m_postMine that contains all trie changes.
m_bq.import(&newBlock, m_bc, true);
/*
ImportRoute ir = m_bc.attemptImport(newBlock, m_stateDB);
if (!ir.first.empty())
onChainChanged(ir);*/
return true;
}
@ -489,12 +505,16 @@ void Client::syncTransactionQueue()
h256Set changeds;
TransactionReceipts newPendingReceipts;
ETH_WRITE_GUARDED(x_postMine)
tie(newPendingReceipts, m_syncTransactionQueue) = m_postMine.sync(m_bc, m_tq, *m_gp);
DEV_TIMED(working) ETH_WRITE_GUARDED(x_working)
tie(newPendingReceipts, m_syncTransactionQueue) = m_working.sync(m_bc, m_tq, *m_gp);
if (newPendingReceipts.empty())
return;
ETH_READ_GUARDED(x_working)
DEV_TIMED(post) ETH_WRITE_GUARDED(x_postMine)
m_postMine = m_working;
ETH_READ_GUARDED(x_postMine)
for (size_t i = 0; i < newPendingReceipts.size(); i++)
appendFromNewPending(newPendingReceipts[i], changeds, m_postMine.pending()[i].sha3());
@ -519,7 +539,7 @@ void Client::onChainChanged(ImportRoute const& _ir)
clog(ClientNote) << "Dead block:" << h;
for (auto const& t: m_bc.transactions(h))
{
clog(ClientNote) << "Resubmitting transaction " << Transaction(t, CheckTransaction::None);
clog(ClientNote) << "Resubmitting dead-block transaction " << Transaction(t, CheckTransaction::None);
m_tq.import(t, TransactionQueue::ImportCallback(), IfDropped::Retry);
}
}
@ -545,18 +565,33 @@ void Client::onChainChanged(ImportRoute const& _ir)
// RESTART MINING
// LOCKS REALLY NEEDED?
bool preChanged = false;
ETH_WRITE_GUARDED(x_preMine)
preChanged = m_preMine.sync(m_bc);
State newPreMine;
ETH_READ_GUARDED(x_preMine)
newPreMine = m_preMine;
// TODO: use m_postMine to avoid re-evaluating our own blocks.
preChanged = newPreMine.sync(m_bc);
if (preChanged || m_postMine.address() != m_preMine.address())
{
if (isMining())
cnote << "New block on chain.";
ETH_WRITE_GUARDED(x_postMine)
ETH_READ_GUARDED(x_preMine)
m_postMine = m_preMine;
ETH_WRITE_GUARDED(x_preMine)
m_preMine = newPreMine;
DEV_TIMED(working) ETH_WRITE_GUARDED(x_working)
m_working = newPreMine;
// Transactions ts = m_postMine.pending();
ETH_READ_GUARDED(x_postMine)
for (auto const& t: m_postMine.pending())
{
clog(ClientNote) << "Resubmitting post-mine transaction " << t;
m_tq.import(t, TransactionQueue::ImportCallback(), IfDropped::Retry);
}
ETH_READ_GUARDED(x_working) DEV_TIMED(post) ETH_WRITE_GUARDED(x_postMine)
m_postMine = m_working;
changeds.insert(PendingChangedFilter);
onPostStateChanged();
@ -575,9 +610,12 @@ void Client::onPostStateChanged()
cnote << "Post state changed: Restarting mining...";
if (isMining() || remoteActive())
{
DEV_TIMED(working) ETH_WRITE_GUARDED(x_working)
m_working.commitToMine(m_bc);
ETH_READ_GUARDED(x_working)
{
WriteGuard l(x_postMine);
m_postMine.commitToMine(m_bc);
DEV_TIMED(post) ETH_WRITE_GUARDED(x_postMine)
m_postMine = m_working;
m_miningInfo = m_postMine.info();
}
m_farm.setWork(m_miningInfo);
@ -625,7 +663,7 @@ void Client::doWork()
bool t = true;
if (m_syncBlockQueue.compare_exchange_strong(t, false))
syncBlockQueue();
syncBlockQueue(); // GAAA!!!!! CALLED TOO OFTEN!!!
t = true;
if (m_syncTransactionQueue.compare_exchange_strong(t, false) && !m_remoteWorking)
@ -695,7 +733,10 @@ eth::State Client::state(h256 _block) const
eth::State Client::state(unsigned _txi) const
{
return m_postMine.fromPending(_txi);
ETH_READ_GUARDED(x_postMine)
return m_postMine.fromPending(_txi);
assert(false);
return State();
}
void Client::flushTransactions()

6
libethereum/Client.h
View File

@ -279,10 +279,12 @@ private:
std::shared_ptr<GasPricer> m_gp; ///< The gas pricer.
OverlayDB m_stateDB; ///< Acts as the central point for the state database, so multiple States can share it.
mutable SharedMutex x_preMine; ///< Lock on the OverlayDB and other attributes of m_preMine.
mutable SharedMutex x_preMine; ///< Lock on m_preMine.
State m_preMine; ///< The present state of the client.
mutable SharedMutex x_postMine; ///< Lock on the OverlayDB and other attributes of m_postMine.
mutable SharedMutex x_postMine; ///< Lock on m_postMine.
State m_postMine; ///< The state of the client which we're mining (i.e. it'll have all the rewards added).
mutable SharedMutex x_working; ///< Lock on m_working.
State m_working; ///< The state of the client which we're mining (i.e. it'll have all the rewards added), while we're actually working on it.
BlockInfo m_miningInfo; ///< The header we're attempting to mine on (derived from m_postMine).
bool remoteActive() const; ///< Is there an active and valid remote worker?
bool m_remoteWorking = false; ///< Has the remote worker recently been reset?

4
libethereum/State.cpp
View File

@ -152,7 +152,7 @@ State::State(OverlayDB const& _db, BlockChain const& _bc, h256 _h):
State::State(State const& _s):
m_db(_s.m_db),
m_state(&m_db, _s.m_state.root()),
m_state(&m_db, _s.m_state.root(), Verification::Skip),
m_transactions(_s.m_transactions),
m_receipts(_s.m_receipts),
m_transactionSet(_s.m_transactionSet),
@ -184,7 +184,7 @@ void State::paranoia(std::string const& _when, bool _enforceRefs) const
State& State::operator=(State const& _s)
{
m_db = _s.m_db;
m_state.open(&m_db, _s.m_state.root());
m_state.open(&m_db, _s.m_state.root(), Verification::Skip);
m_transactions = _s.m_transactions;
m_receipts = _s.m_receipts;
m_transactionSet = _s.m_transactionSet;

3
libethereum/Transaction.h
View File

@ -149,7 +149,7 @@ public:
bytes rlp(IncludeSignature _sig = WithSignature) const { RLPStream s; streamRLP(s, _sig); return s.out(); }
/// @returns the SHA3 hash of the RLP serialisation of this transaction.
h256 sha3(IncludeSignature _sig = WithSignature) const { RLPStream s; streamRLP(s, _sig); return dev::sha3(s.out()); }
h256 sha3(IncludeSignature _sig = WithSignature) const { if (_sig == WithSignature && m_hashWith) return m_hashWith; RLPStream s; streamRLP(s, _sig); auto ret = dev::sha3(s.out()); if (_sig == WithSignature) m_hashWith = ret; return ret; }
/// @returns the amount of ETH to be transferred by this (message-call) transaction, in Wei. Synonym for endowment().
u256 value() const { return m_value; }
@ -211,6 +211,7 @@ private:
bytes m_data; ///< The data associated with the transaction, or the initialiser if it's a creation transaction.
SignatureStruct m_vrs; ///< The signature of the transaction. Encodes the sender.
mutable h256 m_hashWith; ///< Cached hash of transaction with signature.
mutable Address m_sender; ///< Cached sender, determined from signature.
mutable bigint m_gasRequired = 0; ///< Memoised amount required for the transaction to run.
};

46
libethereum/TransactionQueue.cpp
View File

@ -38,26 +38,56 @@ ImportResult TransactionQueue::import(bytesConstRef _transactionRLP, ImportCallb
UpgradableGuard l(m_lock);
// TODO: keep old transactions around and check in State for nonce validity
if (m_known.count(h))
auto ir = check_WITH_LOCK(h, _ik);
if (ir != ImportResult::Success)
return ir;
Transaction t(_transactionRLP, CheckTransaction::Everything);
UpgradeGuard ul(l);
return manageImport_WITH_LOCK(h, t, _cb);
}
ImportResult TransactionQueue::check_WITH_LOCK(h256 const& _h, IfDropped _ik)
{
if (m_known.count(_h))
return ImportResult::AlreadyKnown;
if (m_dropped.count(h) && _ik == IfDropped::Ignore)
if (m_dropped.count(_h) && _ik == IfDropped::Ignore)
return ImportResult::AlreadyInChain;
return ImportResult::Success;
}
ImportResult TransactionQueue::import(Transaction const& _transaction, ImportCallback const& _cb, IfDropped _ik)
{
// Check if we already know this transaction.
h256 h = _transaction.sha3(WithSignature);
UpgradableGuard l(m_lock);
// TODO: keep old transactions around and check in State for nonce validity
auto ir = check_WITH_LOCK(h, _ik);
if (ir != ImportResult::Success)
return ir;
UpgradeGuard ul(l);
return manageImport_WITH_LOCK(h, _transaction, _cb);
}
ImportResult TransactionQueue::manageImport_WITH_LOCK(h256 const& _h, Transaction const& _transaction, ImportCallback const& _cb)
{
try
{
// Check validity of _transactionRLP as a transaction. To do this we just deserialise and attempt to determine the sender.
// If it doesn't work, the signature is bad.
// The transaction's nonce may yet be invalid (or, it could be "valid" but we may be missing a marginally older transaction).
Transaction t(_transactionRLP, CheckTransaction::Everything);
UpgradeGuard ul(l);
// If valid, append to blocks.
insertCurrent_WITH_LOCK(make_pair(h, t));
m_known.insert(h);
insertCurrent_WITH_LOCK(make_pair(_h, _transaction));
m_known.insert(_h);
if (_cb)
m_callbacks[h] = _cb;
ctxq << "Queued vaguely legit-looking transaction" << h;
m_callbacks[_h] = _cb;
ctxq << "Queued vaguely legit-looking transaction" << _h;
m_onReady();
}
catch (Exception const& _e)

4
libethereum/TransactionQueue.h
View File

@ -49,6 +49,7 @@ class TransactionQueue
public:
using ImportCallback = std::function<void(ImportResult)>;
ImportResult import(Transaction const& _tx, ImportCallback const& _cb = ImportCallback(), IfDropped _ik = IfDropped::Ignore);
ImportResult import(bytes const& _tx, ImportCallback const& _cb = ImportCallback(), IfDropped _ik = IfDropped::Ignore) { return import(&_tx, _cb, _ik); }
ImportResult import(bytesConstRef _tx, ImportCallback const& _cb = ImportCallback(), IfDropped _ik = IfDropped::Ignore);
@ -65,6 +66,9 @@ public:
template <class T> Handler onReady(T const& _t) { return m_onReady.add(_t); }
private:
ImportResult check_WITH_LOCK(h256 const& _h, IfDropped _ik);
ImportResult manageImport_WITH_LOCK(h256 const& _h, Transaction const& _transaction, ImportCallback const& _cb);
void insertCurrent_WITH_LOCK(std::pair<h256, Transaction> const& _p);
bool removeCurrent_WITH_LOCK(h256 const& _txHash);

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