Avoid compiling neth/serpent on MSVC.

10 years ago · 622367b274
10 changed files with 118 additions and 50 deletions
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@ -190,7 +190,7 @@ else ()
 	set(SOLIDITY OFF)
 endif()
 if (SERPENT)
-	set(SERPENT ON)
+	set(SERPENT ${DECENT_PLATFORM})
 else ()
 	set(SERPENT OFF)
 endif()
@ -216,7 +216,7 @@ else ()
 	set(ETHASHCL OFF)
 endif()
 if (NCURSES)
-	set(NCURSES ON)
+	set(NCURSES ${DECENT_PLATFORM})
 else ()
 	set(NCURSES OFF)
 endif ()
@ -230,7 +230,7 @@ if (BUNDLE STREQUAL "minimal")
 	set(TOOLS ON)
 	set(TESTS OFF)
 elseif (BUNDLE STREQUAL "full")
-	set(SERPENT ON)
+	set(SERPENT ${DECENT_PLATFORM})
 	set(SOLIDITY ON)
 	set(USENPM ON)
 	set(GUI ON)
@ -239,7 +239,7 @@ elseif (BUNDLE STREQUAL "full")
 	set(TESTS ON)
 	set(FATDB ON)
 elseif (BUNDLE STREQUAL "tests")
-	set(SERPENT ON)
+	set(SERPENT ${DECENT_PLATFORM})
 	set(SOLIDITY ON)
 	set(USENPM OFF)
 	set(GUI OFF)
--- a/alethzero/MainWin.cpp
+++ b/alethzero/MainWin.cpp
@ -307,10 +307,10 @@ void Main::uninstallWatch(unsigned _w)

 void Main::installWatches()
 {
+	installWatch(ChainChangedFilter, [=](LocalisedLogEntries const&){ onNewBlock(); });
+	installWatch(PendingChangedFilter, [=](LocalisedLogEntries const&){ onNewPending(); });
 	installWatch(LogFilter().address(c_newConfig), [=](LocalisedLogEntries const&) { installNameRegWatch(); });
 	installWatch(LogFilter().address(c_newConfig), [=](LocalisedLogEntries const&) { installCurrenciesWatch(); });
-	installWatch(PendingChangedFilter, [=](LocalisedLogEntries const&){ onNewPending(); });
-	installWatch(ChainChangedFilter, [=](LocalisedLogEntries const&){ onNewBlock(); });
 }

 Address Main::getNameReg() const
--- a/libethcore/Common.h
+++ b/libethcore/Common.h
@ -92,7 +92,8 @@ enum class ImportResult
 	FutureTime,
 	AlreadyInChain,
 	AlreadyKnown,
-	Malformed
+	Malformed,
+	BadChain
 };

 }
--- a/libethereum/BlockChain.cpp
+++ b/libethereum/BlockChain.cpp
@ -306,39 +306,49 @@ LastHashes BlockChain::lastHashes(unsigned _n) const
 	return m_lastLastHashes;
 }

-pair<h256s, bool> BlockChain::sync(BlockQueue& _bq, OverlayDB const& _stateDB, unsigned _max)
+tuple<h256s, h256s, bool> BlockChain::sync(BlockQueue& _bq, OverlayDB const& _stateDB, unsigned _max)
 {
 	_bq.tick(*this);

 	vector<bytes> blocks;
 	_bq.drain(blocks, _max);

-	h256s ret;
+	h256s fresh;
+	h256s dead;
+	h256s badBlocks;
 	for (auto const& block: blocks)
 	{
 		try
 		{
-			for (auto h: import(block, _stateDB))
-				ret.push_back(h);
+			auto r = import(block, _stateDB);
+			bool isOld = true;
+			for (auto const& h: r.first)
+				if (h == r.second)
+					isOld = false;
+				else if (isOld)
+					dead.push_back(h);
+				else
+					fresh.push_back(h);
 		}
 		catch (UnknownParent)
 		{
-			cwarn << "Unknown parent of block!!!" << BlockInfo::headerHash(block).abridged() << boost::current_exception_diagnostic_information();
-			_bq.import(&block, *this);
+			cwarn << "ODD: Import queue contains block with unknown parent." << boost::current_exception_diagnostic_information();
+			// NOTE: don't reimport since the queue should guarantee everything in the right order.
+			// Can't continue - chain bad.
+			badBlocks.push_back(BlockInfo::headerHash(block));
 		}
 		catch (Exception const& _e)
 		{
-			cwarn << "Unexpected exception!" << diagnostic_information(_e);
-			_bq.import(&block, *this);
+			cnote << "Exception while importing block. Someone (Jeff? That you?) seems to be giving us dodgy blocks!" << diagnostic_information(_e);
+			// NOTE: don't reimport since the queue should guarantee everything in the right order.
+			// Can't continue - chain  bad.
+			badBlocks.push_back(BlockInfo::headerHash(block));
 		}
-		catch (...)
-		{}
 	}
-	bool yetMore = _bq.doneDrain();
-	return make_pair(ret, yetMore);
+	return make_tuple(fresh, dead, _bq.doneDrain(badBlocks));
 }

-h256s BlockChain::attemptImport(bytes const& _block, OverlayDB const& _stateDB, bool _force) noexcept
+pair<h256s, h256> BlockChain::attemptImport(bytes const& _block, OverlayDB const& _stateDB, bool _force) noexcept
 {
 	try
 	{
@ -347,11 +357,11 @@ h256s BlockChain::attemptImport(bytes const& _block, OverlayDB const& _stateDB,
 	catch (...)
 	{
 		cwarn << "Unexpected exception! Could not import block!" << boost::current_exception_diagnostic_information();
-		return h256s();
+		return make_pair(h256s(), h256());
 	}
 }

-h256s BlockChain::import(bytes const& _block, OverlayDB const& _db, bool _force)
+pair<h256s, h256> BlockChain::import(bytes const& _block, OverlayDB const& _db, bool _force)
 {
 	//@tidy This is a behemoth of a method - could do to be split into a few smaller ones.

@ -532,14 +542,14 @@ h256s BlockChain::import(bytes const& _block, OverlayDB const& _db, bool _force)
 	);
 	//	cnote << "Parent " << bi.parentHash << " has " << details(bi.parentHash).children.size() << " children.";

-	h256s ret;
+	h256s route;
+	h256 common;
 	// This might be the new best block...
 	h256 last = currentHash();
 	if (td > details(last).totalDifficulty)
 	{
-		h256 common;
 		unsigned commonIndex;
-		tie(ret, common, commonIndex) = treeRoute(last, newHash);
+		tie(route, common, commonIndex) = treeRoute(last, newHash);
 		{
 			WriteGuard l(x_lastBlockHash);
 			m_lastBlockHash = newHash;
@ -554,7 +564,7 @@ h256s BlockChain::import(bytes const& _block, OverlayDB const& _db, bool _force)
 			clearBlockBlooms(number(common) + 1, number(last) + 1);

 		// Go through ret backwards until hash != last.parent and update m_transactionAddresses, m_blockHashes
-		for (auto i = ret.rbegin(); i != ret.rend() && *i != common; ++i)
+		for (auto i = route.rbegin(); i != route.rend() && *i != common; ++i)
 		{
 			auto b = block(*i);
 			BlockInfo bi(b);
@ -606,7 +616,7 @@ h256s BlockChain::import(bytes const& _block, OverlayDB const& _db, bool _force)
 				m_extrasDB->Put(m_writeOptions, toSlice(h, ExtraTransactionAddress), (ldb::Slice)dev::ref(m_transactionAddresses[h].rlp()));
 		}

-		clog(BlockChainNote) << "   Imported and best" << td << ". Has" << (details(bi.parentHash).children.size() - 1) << "siblings. Route:" << toString(ret);
+		clog(BlockChainNote) << "   Imported and best" << td << ". Has" << (details(bi.parentHash).children.size() - 1) << "siblings. Route:" << toString(route);
 		noteCanonChanged();

 		StructuredLogger::chainNewHead(
@ -631,7 +641,7 @@ h256s BlockChain::import(bytes const& _block, OverlayDB const& _db, bool _force)
 	cnote << "checkBest:" << checkBest;
 #endif

-	return ret;
+	return make_pair(route, common);
 }

 void BlockChain::clearBlockBlooms(unsigned _begin, unsigned _end)
--- a/libethereum/BlockChain.h
+++ b/libethereum/BlockChain.h
@ -100,15 +100,15 @@ public:
 	void process();

 	/// Sync the chain with any incoming blocks. All blocks should, if processed in order
-	std::pair<h256s, bool> sync(BlockQueue& _bq, OverlayDB const& _stateDB, unsigned _max);
+	std::tuple<h256s, h256s, bool> sync(BlockQueue& _bq, OverlayDB const& _stateDB, unsigned _max);

 	/// Attempt to import the given block directly into the CanonBlockChain and sync with the state DB.
 	/// @returns the block hashes of any blocks that came into/went out of the canonical block chain.
-	h256s attemptImport(bytes const& _block, OverlayDB const& _stateDB, bool _force = false) noexcept;
+	std::pair<h256s, h256> attemptImport(bytes const& _block, OverlayDB const& _stateDB, bool _force = false) noexcept;

 	/// Import block into disk-backed DB
 	/// @returns the block hashes of any blocks that came into/went out of the canonical block chain.
-	h256s import(bytes const& _block, OverlayDB const& _stateDB, bool _force = false);
+	std::pair<h256s, h256> import(bytes const& _block, OverlayDB const& _stateDB, bool _force = false);

 	/// Returns true if the given block is known (though not necessarily a part of the canon chain).
 	bool isKnown(h256 const& _hash) const;
@ -178,6 +178,10 @@ public:
 	bytes transaction(h256 const& _blockHash, unsigned _i) const { bytes b = block(_blockHash); return RLP(b)[1][_i].data().toBytes(); }
 	bytes transaction(unsigned _i) const { return transaction(currentHash(), _i); }

+	/// Get all transactions from a block.
+	std::vector<bytes> transactions(h256 const& _blockHash) const { bytes b = block(_blockHash); std::vector<bytes> ret; for (auto const& i: RLP(b)[1]) ret.push_back(i.data().toBytes()); return ret; }
+	std::vector<bytes> transactions() const { return transactions(currentHash()); }
+
 	/// Get a number for the given hash (or the most recent mined if none given). Thread-safe.
 	unsigned number(h256 const& _hash) const { return details(_hash).number; }
 	unsigned number() const { return number(currentHash()); }
--- a/libethereum/BlockQueue.cpp
+++ b/libethereum/BlockQueue.cpp
@ -38,7 +38,7 @@ ImportResult BlockQueue::import(bytesConstRef _block, BlockChain const& _bc)

 	UpgradableGuard l(m_lock);

-	if (m_readySet.count(h) || m_drainingSet.count(h) || m_unknownSet.count(h))
+	if (m_readySet.count(h) || m_drainingSet.count(h) || m_unknownSet.count(h) || m_knownBad.count(h))
 	{
 		// Already know about this one.
 		cblockq << "Already known.";
@ -48,20 +48,17 @@ ImportResult BlockQueue::import(bytesConstRef _block, BlockChain const& _bc)
 	// VERIFY: populates from the block and checks the block is internally coherent.
 	BlockInfo bi;

-#if ETH_CATCH
 	try
-#endif
 	{
+		// TODO: quick verify
 		bi.populate(_block);
 		bi.verifyInternals(_block);
 	}
-#if ETH_CATCH
 	catch (Exception const& _e)
 	{
 		cwarn << "Ignoring malformed block: " << diagnostic_information(_e);
 		return ImportResult::Malformed;
 	}
-#endif

 	// Check block doesn't already exist first!
 	if (_bc.details(h))
@ -82,7 +79,13 @@ ImportResult BlockQueue::import(bytesConstRef _block, BlockChain const& _bc)
 	else
 	{
 		// We now know it.
-		if (!m_readySet.count(bi.parentHash) && !m_drainingSet.count(bi.parentHash) && !_bc.isKnown(bi.parentHash))
+		if (m_knownBad.count(bi.parentHash))
+		{
+			m_knownBad.insert(bi.hash());
+			// bad parent; this is bad too, note it as such
+			return ImportResult::BadChain;
+		}
+		else if (!m_readySet.count(bi.parentHash) && !m_drainingSet.count(bi.parentHash) && !_bc.isKnown(bi.parentHash))
 		{
 			// We don't know the parent (yet) - queue it up for later. It'll get resent to us if we find out about its ancestry later on.
 			cblockq << "OK - queued as unknown parent:" << bi.parentHash.abridged();
@ -104,6 +107,35 @@ ImportResult BlockQueue::import(bytesConstRef _block, BlockChain const& _bc)
 	}
 }

+namespace dev {
+template <class T, class U> std::set<T>& operator+=(std::set<T>& _a, U const& _b)
+{
+	for (auto const& i: _b)
+		_a.insert(i);
+	return _a;
+} }
+
+bool BlockQueue::doneDrain(h256s const& _bad)
+{
+	WriteGuard l(m_lock);
+	m_drainingSet.clear();
+	if (_bad.size())
+	{
+		vector<bytes> old;
+		swap(m_ready, old);
+		for (auto& b: old)
+		{
+			BlockInfo bi(b);
+			if (m_knownBad.count(bi.parentHash))
+				m_knownBad.insert(bi.hash());
+			else
+				m_ready.push_back(std::move(b));
+		}
+	}
+	m_knownBad += _bad;
+	return !m_readySet.empty();
+}
+
 void BlockQueue::tick(BlockChain const& _bc)
 {
 	unsigned t = time(0);
--- a/libethereum/BlockQueue.h
+++ b/libethereum/BlockQueue.h
@ -58,7 +58,7 @@ public:

 	/// Must be called after a drain() call. Notes that the drained blocks have been imported into the blockchain, so we can forget about them.
 	/// @returns true iff there are additional blocks ready to be processed.
-	bool doneDrain() { WriteGuard l(m_lock); m_drainingSet.clear(); return !m_readySet.empty(); }
+	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); }
@ -83,6 +83,7 @@ private:
 	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::set<h256> m_knownBad;								///< Set of blocks that we know will never be valid.
 };

 }
--- a/libethereum/Client.cpp
+++ b/libethereum/Client.cpp
@ -453,6 +453,7 @@ void Client::doWork()
 			// TODO: enable a short-circuit option since we mined it. will need to get the end state from the miner.
 			auto lm = dynamic_cast<LocalMiner*>(&m);
 			h256s hs;
+			h256 c;
 			if (false && lm && !m_verifyOwnBlocks)
 			{
 				// TODO: implement
@ -463,12 +464,13 @@ void Client::doWork()
 			{
 				cwork << "CHAIN <== postSTATE";
 				WriteGuard l(x_stateDB);
-				hs = m_bc.attemptImport(m.blockData(), m_stateDB);
+				tie(hs, c) = m_bc.attemptImport(m.blockData(), m_stateDB);
 			}
 			if (hs.size())
 			{
 				for (auto const& h: hs)
-					appendFromNewBlock(h, changeds);
+					if (h != c)
+						appendFromNewBlock(h, changeds);
 				changeds.insert(ChainChangedFilter);
 			}
 			for (auto& m: m_localMiners)
@ -498,18 +500,28 @@ void Client::doWork()
 		cwork << "BQ ==> CHAIN ==> STATE";
 		OverlayDB db = m_stateDB;
 		x_stateDB.unlock();
-		h256s newBlocks;
+		h256s fresh;
+		h256s dead;
 		bool sgw;
-		tie(newBlocks, sgw) = m_bc.sync(m_bq, db, 100);	// TODO: remove transactions from m_tq nicely rather than relying on out of date nonce later on.
+		tie(fresh, dead, sgw) = m_bc.sync(m_bq, db, 100);
+
+		// TODO: remove transactions from m_tq nicely rather than relying on out of date nonce later on.
+		for (auto const& h: dead)
+			for (auto const& t: m_bc.transactions(h))
+				m_tq.import(t);
+		for (auto const& h: fresh)
+			for (auto const& th: m_bc.transactionHashes(h))
+				m_tq.drop(th);
+
 		stillGotWork = stillGotWork | sgw;
-		if (newBlocks.size())
+		if (fresh.size())
 		{
-			for (auto i: newBlocks)
+			for (auto i: fresh)
 				appendFromNewBlock(i, changeds);
 			changeds.insert(ChainChangedFilter);
 		}
 		x_stateDB.lock();
-		if (newBlocks.size())
+		if (fresh.size())
 			m_stateDB = db;

 		cwork << "preSTATE <== CHAIN";
--- a/libethereum/EthereumHost.cpp
+++ b/libethereum/EthereumHost.cpp
@ -201,16 +201,22 @@ void EthereumHost::maintainBlocks(h256 _currentHash)
 	{
 		clog(NetMessageSummary) << "Sending a new block (current is" << _currentHash << ", was" << m_latestBlockSent << ")";

-		for (auto j: peerSessions())
+		std::vector<std::shared_ptr<EthereumPeer>> dispersal;
+		for (auto const& j: peerSessions())
+			if (!j.first->cap<EthereumPeer>()->m_knownBlocks.count(_currentHash))
+				dispersal.push_back(j.first->cap<EthereumPeer>());
+
+		for (unsigned i = (dispersal.size() + 3) / 4; i--;)
 		{
-			auto p = j.first->cap<EthereumPeer>().get();
+			unsigned n = rand() % dispersal.size();
+			auto p = std::move(dispersal[n]);
+			dispersal.erase(dispersal.begin() + n);

 			RLPStream ts;
 			p->prep(ts, NewBlockPacket, 2).appendRaw(m_chain.block(), 1).append(m_chain.details().totalDifficulty);

 			Guard l(p->x_knownBlocks);
-			if (!p->m_knownBlocks.count(_currentHash))
-				p->sealAndSend(ts);
+			p->sealAndSend(ts);
 			p->m_knownBlocks.clear();
 		}
 		m_latestBlockSent = _currentHash;
--- a/libethereum/EthereumPeer.cpp
+++ b/libethereum/EthereumPeer.cpp
@ -451,6 +451,7 @@ bool EthereumPeer::interpret(unsigned _id, RLP const& _r)
 					break;

 				case ImportResult::Malformed:
+				case ImportResult::BadChain:
 					disable("Malformed block received.");
 					return true;

@ -505,8 +506,9 @@ bool EthereumPeer::interpret(unsigned _id, RLP const& _r)
 				break;

 			case ImportResult::Malformed:
+			case ImportResult::BadChain:
 				disable("Malformed block received.");
-				break;
+				return true;

 			case ImportResult::AlreadyInChain:
 			case ImportResult::AlreadyKnown: