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Headers-first synchronization

Many changes:
* Do not use 'getblocks', but 'getheaders', and use it to build a headers tree.
* Blocks are fetched in parallel from all available outbound peers, using a
  limited moving window. When one peer stalls the movement of the window, it is
  disconnected.
* No more orphan blocks. At all. We only ever request a block for which we have
  verified the headers, and store it to disk immediately. This means that a
  disk-fill attack would require PoW.
* Require protocol version 31800 for every peer (released in december 2010).
* No more syncnode (we sync from everyone we can, though limited to 1 during
  initial *headers* sync).
* Introduce some extra named constants, comments and asserts.
0.10
Pieter Wuille 11 years ago
parent
commit
341735eb8f
  1. 32
      src/chain.h
  2. 608
      src/main.cpp
  3. 21
      src/main.h
  4. 50
      src/net.cpp
  5. 4
      src/net.h
  6. 23
      src/qt/forms/rpcconsole.ui
  7. 1
      src/qt/rpcconsole.cpp
  8. 1
      src/rpcnet.cpp
  9. 5
      src/version.h

32
src/chain.h

@ -49,12 +49,29 @@ struct CDiskBlockPos
}; };
enum BlockStatus { enum BlockStatus {
// Unused.
BLOCK_VALID_UNKNOWN = 0, BLOCK_VALID_UNKNOWN = 0,
BLOCK_VALID_HEADER = 1, // parsed, version ok, hash satisfies claimed PoW, 1 <= vtx count <= max, timestamp not in future
BLOCK_VALID_TREE = 2, // parent found, difficulty matches, timestamp >= median previous, checkpoint // Parsed, version ok, hash satisfies claimed PoW, 1 <= vtx count <= max, timestamp not in future
BLOCK_VALID_TRANSACTIONS = 3, // only first tx is coinbase, 2 <= coinbase input script length <= 100, transactions valid, no duplicate txids, sigops, size, merkle root BLOCK_VALID_HEADER = 1,
BLOCK_VALID_CHAIN = 4, // outputs do not overspend inputs, no double spends, coinbase output ok, immature coinbase spends, BIP30
BLOCK_VALID_SCRIPTS = 5, // scripts/signatures ok // All parent headers found, difficulty matches, timestamp >= median previous, checkpoint. Implies all parents
// are also at least TREE.
BLOCK_VALID_TREE = 2,
// Only first tx is coinbase, 2 <= coinbase input script length <= 100, transactions valid, no duplicate txids,
// sigops, size, merkle root. Implies all parents are at least TREE but not necessarily TRANSACTIONS. When all
// parent blocks also have TRANSACTIONS, CBlockIndex::nChainTx will be set.
BLOCK_VALID_TRANSACTIONS = 3,
// Outputs do not overspend inputs, no double spends, coinbase output ok, immature coinbase spends, BIP30.
// Implies all parents are also at least CHAIN.
BLOCK_VALID_CHAIN = 4,
// Scripts & signatures ok. Implies all parents are also at least SCRIPTS.
BLOCK_VALID_SCRIPTS = 5,
// All validity bits.
BLOCK_VALID_MASK = BLOCK_VALID_HEADER | BLOCK_VALID_TREE | BLOCK_VALID_TRANSACTIONS | BLOCK_VALID_MASK = BLOCK_VALID_HEADER | BLOCK_VALID_TREE | BLOCK_VALID_TRANSACTIONS |
BLOCK_VALID_CHAIN | BLOCK_VALID_SCRIPTS, BLOCK_VALID_CHAIN | BLOCK_VALID_SCRIPTS,
@ -103,7 +120,8 @@ public:
// Note: in a potential headers-first mode, this number cannot be relied upon // Note: in a potential headers-first mode, this number cannot be relied upon
unsigned int nTx; unsigned int nTx;
// (memory only) Number of transactions in the chain up to and including this block // (memory only) Number of transactions in the chain up to and including this block.
// This value will be non-zero only if and only if transactions for this block and all its parents are available.
unsigned int nChainTx; // change to 64-bit type when necessary; won't happen before 2030 unsigned int nChainTx; // change to 64-bit type when necessary; won't happen before 2030
// Verification status of this block. See enum BlockStatus // Verification status of this block. See enum BlockStatus
@ -146,7 +164,7 @@ public:
SetNull(); SetNull();
} }
CBlockIndex(CBlockHeader& block) CBlockIndex(const CBlockHeader& block)
{ {
SetNull(); SetNull();

608
src/main.cpp

@ -56,14 +56,6 @@ CFeeRate minRelayTxFee = CFeeRate(1000);
CTxMemPool mempool(::minRelayTxFee); CTxMemPool mempool(::minRelayTxFee);
struct COrphanBlock {
uint256 hashBlock;
uint256 hashPrev;
vector<unsigned char> vchBlock;
};
map<uint256, COrphanBlock*> mapOrphanBlocks;
multimap<uint256, COrphanBlock*> mapOrphanBlocksByPrev;
struct COrphanTx { struct COrphanTx {
CTransaction tx; CTransaction tx;
NodeId fromPeer; NodeId fromPeer;
@ -106,6 +98,12 @@ namespace {
// The set of all CBlockIndex entries with BLOCK_VALID_TRANSACTIONS or better that are at least // The set of all CBlockIndex entries with BLOCK_VALID_TRANSACTIONS or better that are at least
// as good as our current tip. Entries may be failed, though. // as good as our current tip. Entries may be failed, though.
set<CBlockIndex*, CBlockIndexWorkComparator> setBlockIndexValid; set<CBlockIndex*, CBlockIndexWorkComparator> setBlockIndexValid;
// Best header we've seen so far (used for getheaders queries' starting points).
CBlockIndex *pindexBestHeader = NULL;
// Number of nodes with fSyncStarted.
int nSyncStarted = 0;
// All pairs A->B, where A (or one if its ancestors) misses transactions, but B has transactions.
multimap<CBlockIndex*, CBlockIndex*> mapBlocksUnlinked;
CCriticalSection cs_LastBlockFile; CCriticalSection cs_LastBlockFile;
CBlockFileInfo infoLastBlockFile; CBlockFileInfo infoLastBlockFile;
@ -125,11 +123,10 @@ namespace {
// Protected by cs_main. // Protected by cs_main.
struct QueuedBlock { struct QueuedBlock {
uint256 hash; uint256 hash;
CBlockIndex *pindex; // Optional.
int64_t nTime; // Time of "getdata" request in microseconds. int64_t nTime; // Time of "getdata" request in microseconds.
int nQueuedBefore; // Number of blocks in flight at the time of request.
}; };
map<uint256, pair<NodeId, list<QueuedBlock>::iterator> > mapBlocksInFlight; map<uint256, pair<NodeId, list<QueuedBlock>::iterator> > mapBlocksInFlight;
map<uint256, pair<NodeId, list<uint256>::iterator> > mapBlocksToDownload;
} // anon namespace } // anon namespace
@ -220,22 +217,24 @@ struct CNodeState {
CBlockIndex *pindexBestKnownBlock; CBlockIndex *pindexBestKnownBlock;
// The hash of the last unknown block this peer has announced. // The hash of the last unknown block this peer has announced.
uint256 hashLastUnknownBlock; uint256 hashLastUnknownBlock;
// The last full block we both have.
CBlockIndex *pindexLastCommonBlock;
// Whether we've started headers synchronization with this peer.
bool fSyncStarted;
// Since when we're stalling block download progress (in microseconds), or 0.
int64_t nStallingSince;
list<QueuedBlock> vBlocksInFlight; list<QueuedBlock> vBlocksInFlight;
int nBlocksInFlight; int nBlocksInFlight;
list<uint256> vBlocksToDownload;
int nBlocksToDownload;
int64_t nLastBlockReceive;
int64_t nLastBlockProcess;
CNodeState() { CNodeState() {
nMisbehavior = 0; nMisbehavior = 0;
fShouldBan = false; fShouldBan = false;
pindexBestKnownBlock = NULL; pindexBestKnownBlock = NULL;
hashLastUnknownBlock = uint256(0); hashLastUnknownBlock = uint256(0);
nBlocksToDownload = 0; pindexLastCommonBlock = NULL;
fSyncStarted = false;
nStallingSince = 0;
nBlocksInFlight = 0; nBlocksInFlight = 0;
nLastBlockReceive = 0;
nLastBlockProcess = 0;
} }
}; };
@ -266,64 +265,37 @@ void FinalizeNode(NodeId nodeid) {
LOCK(cs_main); LOCK(cs_main);
CNodeState *state = State(nodeid); CNodeState *state = State(nodeid);
if (state->fSyncStarted)
nSyncStarted--;
BOOST_FOREACH(const QueuedBlock& entry, state->vBlocksInFlight) BOOST_FOREACH(const QueuedBlock& entry, state->vBlocksInFlight)
mapBlocksInFlight.erase(entry.hash); mapBlocksInFlight.erase(entry.hash);
BOOST_FOREACH(const uint256& hash, state->vBlocksToDownload)
mapBlocksToDownload.erase(hash);
EraseOrphansFor(nodeid); EraseOrphansFor(nodeid);
mapNodeState.erase(nodeid); mapNodeState.erase(nodeid);
} }
// Requires cs_main. // Requires cs_main.
void MarkBlockAsReceived(const uint256 &hash, NodeId nodeFrom = -1) { void MarkBlockAsReceived(const uint256& hash) {
map<uint256, pair<NodeId, list<uint256>::iterator> >::iterator itToDownload = mapBlocksToDownload.find(hash);
if (itToDownload != mapBlocksToDownload.end()) {
CNodeState *state = State(itToDownload->second.first);
state->vBlocksToDownload.erase(itToDownload->second.second);
state->nBlocksToDownload--;
mapBlocksToDownload.erase(itToDownload);
}
map<uint256, pair<NodeId, list<QueuedBlock>::iterator> >::iterator itInFlight = mapBlocksInFlight.find(hash); map<uint256, pair<NodeId, list<QueuedBlock>::iterator> >::iterator itInFlight = mapBlocksInFlight.find(hash);
if (itInFlight != mapBlocksInFlight.end()) { if (itInFlight != mapBlocksInFlight.end()) {
CNodeState *state = State(itInFlight->second.first); CNodeState *state = State(itInFlight->second.first);
state->vBlocksInFlight.erase(itInFlight->second.second); state->vBlocksInFlight.erase(itInFlight->second.second);
state->nBlocksInFlight--; state->nBlocksInFlight--;
if (itInFlight->second.first == nodeFrom) state->nStallingSince = 0;
state->nLastBlockReceive = GetTimeMicros();
mapBlocksInFlight.erase(itInFlight); mapBlocksInFlight.erase(itInFlight);
} }
} }
// Requires cs_main. // Requires cs_main.
bool AddBlockToQueue(NodeId nodeid, const uint256 &hash) { void MarkBlockAsInFlight(NodeId nodeid, const uint256& hash, CBlockIndex *pindex = NULL) {
if (mapBlocksToDownload.count(hash) || mapBlocksInFlight.count(hash))
return false;
CNodeState *state = State(nodeid);
if (state == NULL)
return false;
list<uint256>::iterator it = state->vBlocksToDownload.insert(state->vBlocksToDownload.end(), hash);
state->nBlocksToDownload++;
if (state->nBlocksToDownload > 5000)
Misbehaving(nodeid, 10);
mapBlocksToDownload[hash] = std::make_pair(nodeid, it);
return true;
}
// Requires cs_main.
void MarkBlockAsInFlight(NodeId nodeid, const uint256 &hash) {
CNodeState *state = State(nodeid); CNodeState *state = State(nodeid);
assert(state != NULL); assert(state != NULL);
// Make sure it's not listed somewhere already. // Make sure it's not listed somewhere already.
MarkBlockAsReceived(hash); MarkBlockAsReceived(hash);
QueuedBlock newentry = {hash, GetTimeMicros(), state->nBlocksInFlight}; QueuedBlock newentry = {hash, pindex, GetTimeMicros()};
if (state->nBlocksInFlight == 0)
state->nLastBlockReceive = newentry.nTime; // Reset when a first request is sent.
list<QueuedBlock>::iterator it = state->vBlocksInFlight.insert(state->vBlocksInFlight.end(), newentry); list<QueuedBlock>::iterator it = state->vBlocksInFlight.insert(state->vBlocksInFlight.end(), newentry);
state->nBlocksInFlight++; state->nBlocksInFlight++;
mapBlocksInFlight[hash] = std::make_pair(nodeid, it); mapBlocksInFlight[hash] = std::make_pair(nodeid, it);
@ -362,6 +334,103 @@ void UpdateBlockAvailability(NodeId nodeid, const uint256 &hash) {
} }
} }
/** Find the last common ancestor two blocks have.
* Both pa and pb must be non-NULL. */
CBlockIndex* LastCommonAncestor(CBlockIndex* pa, CBlockIndex* pb) {
if (pa->nHeight > pb->nHeight) {
pa = pa->GetAncestor(pb->nHeight);
} else if (pb->nHeight > pa->nHeight) {
pb = pb->GetAncestor(pa->nHeight);
}
while (pa != pb && pa && pb) {
pa = pa->pprev;
pb = pb->pprev;
}
// Eventually all chain branches meet at the genesis block.
assert(pa == pb);
return pa;
}
/** Update pindexLastCommonBlock and add not-in-flight missing successors to vBlocks, until it has
* at most count entries. */
void FindNextBlocksToDownload(NodeId nodeid, unsigned int count, std::vector<CBlockIndex*>& vBlocks, NodeId& nodeStaller) {
if (count == 0)
return;
vBlocks.reserve(vBlocks.size() + count);
CNodeState *state = State(nodeid);
assert(state != NULL);
// Make sure pindexBestKnownBlock is up to date, we'll need it.
ProcessBlockAvailability(nodeid);
if (state->pindexBestKnownBlock == NULL || state->pindexBestKnownBlock->nChainWork < chainActive.Tip()->nChainWork) {
// This peer has nothing interesting.
return;
}
if (state->pindexLastCommonBlock == NULL) {
// Bootstrap quickly by guessing a parent of our best tip is the forking point.
// Guessing wrong in either direction is not a problem.
state->pindexLastCommonBlock = chainActive[std::min(state->pindexBestKnownBlock->nHeight, chainActive.Height())];
}
// If the peer reorganized, our previous pindexLastCommonBlock may not be an ancestor
// of their current tip anymore. Go back enough to fix that.
state->pindexLastCommonBlock = LastCommonAncestor(state->pindexLastCommonBlock, state->pindexBestKnownBlock);
if (state->pindexLastCommonBlock == state->pindexBestKnownBlock)
return;
std::vector<CBlockIndex*> vToFetch;
CBlockIndex *pindexWalk = state->pindexLastCommonBlock;
// Never fetch further than the best block we know the peer has, or more than BLOCK_DOWNLOAD_WINDOW + 1 beyond our
// current tip. The +1 is so we can detect stalling, namely if we would be able to download that next block if the
// window were 1 larger.
int nMaxHeight = std::min<int>(state->pindexBestKnownBlock->nHeight, chainActive.Height() + BLOCK_DOWNLOAD_WINDOW + 1);
NodeId waitingfor = -1;
while (pindexWalk->nHeight < nMaxHeight) {
// Read up to 128 (or more, if more blocks than that are needed) successors of pindexWalk (towards
// pindexBestKnownBlock) into vToFetch. We fetch 128, because CBlockIndex::GetAncestor may be as expensive
// as iterating over ~100 CBlockIndex* entries anyway.
int nToFetch = std::min(nMaxHeight - pindexWalk->nHeight, std::max<int>(count - vBlocks.size(), 128));
vToFetch.resize(nToFetch);
pindexWalk = state->pindexBestKnownBlock->GetAncestor(pindexWalk->nHeight + nToFetch);
vToFetch[nToFetch - 1] = pindexWalk;
for (unsigned int i = nToFetch - 1; i > 0; i--) {
vToFetch[i - 1] = vToFetch[i]->pprev;
}
// Iterate over those blocks in vToFetch (in forward direction), adding the ones that
// are not yet downloaded and not in flight to vBlocks. In the mean time, update
// pindexLastCommonBlock as long as all ancestors are already downloaded.
BOOST_FOREACH(CBlockIndex* pindex, vToFetch) {
if (pindex->nStatus & BLOCK_HAVE_DATA) {
if (pindex->nChainTx)
state->pindexLastCommonBlock = pindex;
} else if (mapBlocksInFlight.count(pindex->GetBlockHash()) == 0) {
// The block is not already downloaded, and not yet in flight.
if (pindex->nHeight > chainActive.Height() + (int)BLOCK_DOWNLOAD_WINDOW) {
// We reached the end of the window.
if (vBlocks.size() == 0 && waitingfor != nodeid) {
// We aren't able to fetch anything, but we would be if the download window was one larger.
nodeStaller = waitingfor;
}
return;
}
vBlocks.push_back(pindex);
if (vBlocks.size() == count) {
return;
}
} else if (waitingfor == -1) {
// This is the first already-in-flight block.
waitingfor = mapBlocksInFlight[pindex->GetBlockHash()].first;
}
}
}
}
} // anon namespace } // anon namespace
bool GetNodeStateStats(NodeId nodeid, CNodeStateStats &stats) { bool GetNodeStateStats(NodeId nodeid, CNodeStateStats &stats) {
@ -1086,46 +1155,6 @@ bool ReadBlockFromDisk(CBlock& block, const CBlockIndex* pindex)
return true; return true;
} }
uint256 static GetOrphanRoot(const uint256& hash)
{
map<uint256, COrphanBlock*>::iterator it = mapOrphanBlocks.find(hash);
if (it == mapOrphanBlocks.end())
return hash;
// Work back to the first block in the orphan chain
do {
map<uint256, COrphanBlock*>::iterator it2 = mapOrphanBlocks.find(it->second->hashPrev);
if (it2 == mapOrphanBlocks.end())
return it->first;
it = it2;
} while(true);
}
// Remove a random orphan block (which does not have any dependent orphans).
void static PruneOrphanBlocks()
{
if (mapOrphanBlocksByPrev.size() <= (size_t)std::max((int64_t)0, GetArg("-maxorphanblocks", DEFAULT_MAX_ORPHAN_BLOCKS)))
return;
// Pick a random orphan block.
int pos = insecure_rand() % mapOrphanBlocksByPrev.size();
std::multimap<uint256, COrphanBlock*>::iterator it = mapOrphanBlocksByPrev.begin();
while (pos--) it++;
// As long as this block has other orphans depending on it, move to one of those successors.
do {
std::multimap<uint256, COrphanBlock*>::iterator it2 = mapOrphanBlocksByPrev.find(it->second->hashBlock);
if (it2 == mapOrphanBlocksByPrev.end())
break;
it = it2;
} while(1);
uint256 hash = it->second->hashBlock;
delete it->second;
mapOrphanBlocksByPrev.erase(it);
mapOrphanBlocks.erase(hash);
}
CAmount GetBlockValue(int nHeight, const CAmount& nFees) CAmount GetBlockValue(int nHeight, const CAmount& nFees)
{ {
int64_t nSubsidy = 50 * COIN; int64_t nSubsidy = 50 * COIN;
@ -1664,11 +1693,6 @@ bool ConnectBlock(CBlock& block, CValidationState& state, CBlockIndex* pindex, C
if (fJustCheck) if (fJustCheck)
return true; return true;
// Correct transaction counts.
pindex->nTx = block.vtx.size();
if (pindex->pprev)
pindex->nChainTx = pindex->pprev->nChainTx + block.vtx.size();
// Write undo information to disk // Write undo information to disk
if (pindex->GetUndoPos().IsNull() || !pindex->IsValid(BLOCK_VALID_SCRIPTS)) if (pindex->GetUndoPos().IsNull() || !pindex->IsValid(BLOCK_VALID_SCRIPTS))
{ {
@ -1900,6 +1924,8 @@ static CBlockIndex* FindMostWorkChain() {
CBlockIndex *pindexTest = pindexNew; CBlockIndex *pindexTest = pindexNew;
bool fInvalidAncestor = false; bool fInvalidAncestor = false;
while (pindexTest && !chainActive.Contains(pindexTest)) { while (pindexTest && !chainActive.Contains(pindexTest)) {
assert(pindexTest->nStatus & BLOCK_HAVE_DATA);
assert(pindexTest->nChainTx || pindexTest->nHeight == 0);
if (pindexTest->nStatus & BLOCK_FAILED_MASK) { if (pindexTest->nStatus & BLOCK_FAILED_MASK) {
// Candidate has an invalid ancestor, remove entire chain from the set. // Candidate has an invalid ancestor, remove entire chain from the set.
if (pindexBestInvalid == NULL || pindexNew->nChainWork > pindexBestInvalid->nChainWork) if (pindexBestInvalid == NULL || pindexNew->nChainWork > pindexBestInvalid->nChainWork)
@ -2032,7 +2058,7 @@ bool ActivateBestChain(CValidationState &state, CBlock *pblock) {
return true; return true;
} }
CBlockIndex* AddToBlockIndex(CBlockHeader& block) CBlockIndex* AddToBlockIndex(const CBlockHeader& block)
{ {
// Check for duplicate // Check for duplicate
uint256 hash = block.GetHash(); uint256 hash = block.GetHash();
@ -2043,10 +2069,10 @@ CBlockIndex* AddToBlockIndex(CBlockHeader& block)
// Construct new block index object // Construct new block index object
CBlockIndex* pindexNew = new CBlockIndex(block); CBlockIndex* pindexNew = new CBlockIndex(block);
assert(pindexNew); assert(pindexNew);
{ // We assign the sequence id to blocks only when the full data is available,
LOCK(cs_nBlockSequenceId); // to avoid miners withholding blocks but broadcasting headers, to get a
pindexNew->nSequenceId = nBlockSequenceId++; // competitive advantage.
} pindexNew->nSequenceId = 0;
BlockMap::iterator mi = mapBlockIndex.insert(make_pair(hash, pindexNew)).first; BlockMap::iterator mi = mapBlockIndex.insert(make_pair(hash, pindexNew)).first;
pindexNew->phashBlock = &((*mi).first); pindexNew->phashBlock = &((*mi).first);
BlockMap::iterator miPrev = mapBlockIndex.find(block.hashPrevBlock); BlockMap::iterator miPrev = mapBlockIndex.find(block.hashPrevBlock);
@ -2058,6 +2084,11 @@ CBlockIndex* AddToBlockIndex(CBlockHeader& block)
} }
pindexNew->nChainWork = (pindexNew->pprev ? pindexNew->pprev->nChainWork : 0) + pindexNew->GetBlockWork(); pindexNew->nChainWork = (pindexNew->pprev ? pindexNew->pprev->nChainWork : 0) + pindexNew->GetBlockWork();
pindexNew->RaiseValidity(BLOCK_VALID_TREE); pindexNew->RaiseValidity(BLOCK_VALID_TREE);
if (pindexBestHeader == NULL || pindexBestHeader->nChainWork < pindexNew->nChainWork)
pindexBestHeader = pindexNew;
// Ok if it fails, we'll download the header again next time.
pblocktree->WriteBlockIndex(CDiskBlockIndex(pindexNew));
return pindexNew; return pindexNew;
} }
@ -2066,30 +2097,45 @@ CBlockIndex* AddToBlockIndex(CBlockHeader& block)
bool ReceivedBlockTransactions(const CBlock &block, CValidationState& state, CBlockIndex *pindexNew, const CDiskBlockPos& pos) bool ReceivedBlockTransactions(const CBlock &block, CValidationState& state, CBlockIndex *pindexNew, const CDiskBlockPos& pos)
{ {
pindexNew->nTx = block.vtx.size(); pindexNew->nTx = block.vtx.size();
if (pindexNew->pprev) { pindexNew->nChainTx = 0;
// Not the genesis block.
if (pindexNew->pprev->nChainTx) {
// This parent's block's total number transactions is known, so compute outs.
pindexNew->nChainTx = pindexNew->pprev->nChainTx + pindexNew->nTx;
} else {
// The total number of transactions isn't known yet.
// We will compute it when the block is connected.
pindexNew->nChainTx = 0;
}
} else {
// Genesis block.
pindexNew->nChainTx = pindexNew->nTx;
}
pindexNew->nFile = pos.nFile; pindexNew->nFile = pos.nFile;
pindexNew->nDataPos = pos.nPos; pindexNew->nDataPos = pos.nPos;
pindexNew->nUndoPos = 0; pindexNew->nUndoPos = 0;
pindexNew->nStatus |= BLOCK_HAVE_DATA; pindexNew->nStatus |= BLOCK_HAVE_DATA;
pindexNew->RaiseValidity(BLOCK_VALID_TRANSACTIONS);
{
LOCK(cs_nBlockSequenceId);
pindexNew->nSequenceId = nBlockSequenceId++;
}
if (pindexNew->RaiseValidity(BLOCK_VALID_TRANSACTIONS)) if (pindexNew->pprev == NULL || pindexNew->pprev->nChainTx) {
setBlockIndexValid.insert(pindexNew); // If pindexNew is the genesis block or all parents are BLOCK_VALID_TRANSACTIONS.
deque<CBlockIndex*> queue;
queue.push_back(pindexNew);
if (!pblocktree->WriteBlockIndex(CDiskBlockIndex(pindexNew))) // Recursively process any descendant blocks that now may be eligible to be connected.
return state.Abort("Failed to write block index"); while (!queue.empty()) {
CBlockIndex *pindex = queue.front();
queue.pop_front();
pindex->nChainTx = (pindex->pprev ? pindex->pprev->nChainTx : 0) + pindex->nTx;
setBlockIndexValid.insert(pindex);
std::pair<std::multimap<CBlockIndex*, CBlockIndex*>::iterator, std::multimap<CBlockIndex*, CBlockIndex*>::iterator> range = mapBlocksUnlinked.equal_range(pindex);
while (range.first != range.second) {
std::multimap<CBlockIndex*, CBlockIndex*>::iterator it = range.first;
queue.push_back(it->second);
range.first++;
mapBlocksUnlinked.erase(it);
}
if (!pblocktree->WriteBlockIndex(CDiskBlockIndex(pindex)))
return state.Abort("Failed to write block index");
}
} else {
if (pindexNew->pprev && pindexNew->pprev->IsValid(BLOCK_VALID_TREE)) {
mapBlocksUnlinked.insert(std::make_pair(pindexNew->pprev, pindexNew));
}
if (!pblocktree->WriteBlockIndex(CDiskBlockIndex(pindexNew)))
return state.Abort("Failed to write block index");
}
return true; return true;
} }
@ -2205,12 +2251,31 @@ bool CheckBlockHeader(const CBlockHeader& block, CValidationState& state, bool f
bool CheckBlock(const CBlock& block, CValidationState& state, bool fCheckPOW, bool fCheckMerkleRoot) bool CheckBlock(const CBlock& block, CValidationState& state, bool fCheckPOW, bool fCheckMerkleRoot)
{ {
// These are checks that are independent of context // These are checks that are independent of context.
// that can be verified before saving an orphan block.
if (!CheckBlockHeader(block, state, fCheckPOW)) if (!CheckBlockHeader(block, state, fCheckPOW))
return false; return false;
// Check the merkle root.
if (fCheckMerkleRoot) {
bool mutated;
uint256 hashMerkleRoot2 = block.BuildMerkleTree(&mutated);
if (block.hashMerkleRoot != hashMerkleRoot2)
return state.DoS(100, error("CheckBlock() : hashMerkleRoot mismatch"),
REJECT_INVALID, "bad-txnmrklroot", true);
// Check for merkle tree malleability (CVE-2012-2459): repeating sequences
// of transactions in a block without affecting the merkle root of a block,
// while still invalidating it.
if (mutated)
return state.DoS(100, error("CheckBlock() : duplicate transaction"),
REJECT_INVALID, "bad-txns-duplicate", true);
}
// All potential-corruption validation must be done before we do any
// transaction validation, as otherwise we may mark the header as invalid
// because we receive the wrong transactions for it.
// Size limits // Size limits
if (block.vtx.empty() || block.vtx.size() > MAX_BLOCK_SIZE || ::GetSerializeSize(block, SER_NETWORK, PROTOCOL_VERSION) > MAX_BLOCK_SIZE) if (block.vtx.empty() || block.vtx.size() > MAX_BLOCK_SIZE || ::GetSerializeSize(block, SER_NETWORK, PROTOCOL_VERSION) > MAX_BLOCK_SIZE)
return state.DoS(100, error("CheckBlock() : size limits failed"), return state.DoS(100, error("CheckBlock() : size limits failed"),
@ -2230,15 +2295,6 @@ bool CheckBlock(const CBlock& block, CValidationState& state, bool fCheckPOW, bo
if (!CheckTransaction(tx, state)) if (!CheckTransaction(tx, state))
return error("CheckBlock() : CheckTransaction failed"); return error("CheckBlock() : CheckTransaction failed");
// Check for merkle tree malleability (CVE-2012-2459): repeating sequences
// of transactions in a block without affecting the merkle root of a block,
// while still invalidating it.
bool mutated;
uint256 hashMerkleRoot2 = block.BuildMerkleTree(&mutated);
if (mutated)
return state.DoS(100, error("CheckBlock() : duplicate transaction"),
REJECT_INVALID, "bad-txns-duplicate", true);
unsigned int nSigOps = 0; unsigned int nSigOps = 0;
BOOST_FOREACH(const CTransaction& tx, block.vtx) BOOST_FOREACH(const CTransaction& tx, block.vtx)
{ {
@ -2248,15 +2304,10 @@ bool CheckBlock(const CBlock& block, CValidationState& state, bool fCheckPOW, bo
return state.DoS(100, error("CheckBlock() : out-of-bounds SigOpCount"), return state.DoS(100, error("CheckBlock() : out-of-bounds SigOpCount"),
REJECT_INVALID, "bad-blk-sigops", true); REJECT_INVALID, "bad-blk-sigops", true);
// Check merkle root
if (fCheckMerkleRoot && block.hashMerkleRoot != hashMerkleRoot2)
return state.DoS(100, error("CheckBlock() : hashMerkleRoot mismatch"),
REJECT_INVALID, "bad-txnmrklroot", true);
return true; return true;
} }
bool AcceptBlockHeader(CBlockHeader& block, CValidationState& state, CBlockIndex** ppindex) bool AcceptBlockHeader(const CBlockHeader& block, CValidationState& state, CBlockIndex** ppindex)
{ {
AssertLockHeld(cs_main); AssertLockHeld(cs_main);
// Check for duplicate // Check for duplicate
@ -2264,9 +2315,13 @@ bool AcceptBlockHeader(CBlockHeader& block, CValidationState& state, CBlockIndex
BlockMap::iterator miSelf = mapBlockIndex.find(hash); BlockMap::iterator miSelf = mapBlockIndex.find(hash);
CBlockIndex *pindex = NULL; CBlockIndex *pindex = NULL;
if (miSelf != mapBlockIndex.end()) { if (miSelf != mapBlockIndex.end()) {
// Block header is already known.
pindex = miSelf->second; pindex = miSelf->second;
if (ppindex)
*ppindex = pindex;
if (pindex->nStatus & BLOCK_FAILED_MASK) if (pindex->nStatus & BLOCK_FAILED_MASK)
return state.Invalid(error("%s : block is marked invalid", __func__), 0, "duplicate"); return state.Invalid(error("%s : block is marked invalid", __func__), 0, "duplicate");
return true;
} }
CBlockIndex* pcheckpoint = Checkpoints::GetLastCheckpoint(); CBlockIndex* pcheckpoint = Checkpoints::GetLastCheckpoint();
@ -2344,6 +2399,12 @@ bool AcceptBlock(CBlock& block, CValidationState& state, CBlockIndex** ppindex,
if (!AcceptBlockHeader(block, state, &pindex)) if (!AcceptBlockHeader(block, state, &pindex))
return false; return false;
if (pindex->nStatus & BLOCK_HAVE_DATA) {
// TODO: deal better with duplicate blocks.
// return state.DoS(20, error("AcceptBlock() : already have block %d %s", pindex->nHeight, pindex->GetBlockHash().ToString()), REJECT_DUPLICATE, "duplicate");
return true;
}
if (!CheckBlock(block, state)) { if (!CheckBlock(block, state)) {
if (state.IsInvalid() && !state.CorruptionPossible()) { if (state.IsInvalid() && !state.CorruptionPossible()) {
pindex->nStatus |= BLOCK_FAILED_VALID; pindex->nStatus |= BLOCK_FAILED_VALID;
@ -2456,93 +2517,26 @@ void CBlockIndex::BuildSkip()
pskip = pprev->GetAncestor(GetSkipHeight(nHeight)); pskip = pprev->GetAncestor(GetSkipHeight(nHeight));
} }
void PushGetBlocks(CNode* pnode, CBlockIndex* pindexBegin, uint256 hashEnd)
{
AssertLockHeld(cs_main);
// Filter out duplicate requests
if (pindexBegin == pnode->pindexLastGetBlocksBegin && hashEnd == pnode->hashLastGetBlocksEnd)
return;
pnode->pindexLastGetBlocksBegin = pindexBegin;
pnode->hashLastGetBlocksEnd = hashEnd;
pnode->PushMessage("getblocks", chainActive.GetLocator(pindexBegin), hashEnd);
}
bool ProcessBlock(CValidationState &state, CNode* pfrom, CBlock* pblock, CDiskBlockPos *dbp) bool ProcessBlock(CValidationState &state, CNode* pfrom, CBlock* pblock, CDiskBlockPos *dbp)
{ {
// Check for duplicate
uint256 hash = pblock->GetHash();
{
LOCK(cs_main);
if (mapBlockIndex.count(hash))
return state.Invalid(error("ProcessBlock() : already have block %d %s", mapBlockIndex[hash]->nHeight, hash.ToString()), 0, "duplicate");
if (mapOrphanBlocks.count(hash))
return state.Invalid(error("ProcessBlock() : already have block (orphan) %s", hash.ToString()), 0, "duplicate");
// Preliminary checks // Preliminary checks
if (!CheckBlock(*pblock, state)) bool checked = CheckBlock(*pblock, state);
return error("ProcessBlock() : CheckBlock FAILED");
// If we don't already have its previous block (with full data), shunt it off to holding area until we get it
BlockMap::iterator it = mapBlockIndex.find(pblock->hashPrevBlock);
if (pblock->hashPrevBlock != 0 && (it == mapBlockIndex.end() || !(it->second->nStatus & BLOCK_HAVE_DATA)))
{ {
LogPrintf("ProcessBlock: ORPHAN BLOCK %lu, prev=%s\n", (unsigned long)mapOrphanBlocks.size(), pblock->hashPrevBlock.ToString()); LOCK(cs_main);
MarkBlockAsReceived(pblock->GetHash());
// Accept orphans as long as there is a node to request its parents from if (!checked) {
if (pfrom) { return error("ProcessBlock() : CheckBlock FAILED");
PruneOrphanBlocks();
COrphanBlock* pblock2 = new COrphanBlock();
{
CDataStream ss(SER_DISK, CLIENT_VERSION);
ss << *pblock;
pblock2->vchBlock = std::vector<unsigned char>(ss.begin(), ss.end());
}
pblock2->hashBlock = hash;
pblock2->hashPrev = pblock->hashPrevBlock;
mapOrphanBlocks.insert(make_pair(hash, pblock2));
mapOrphanBlocksByPrev.insert(make_pair(pblock2->hashPrev, pblock2));
// Ask this guy to fill in what we're missing
PushGetBlocks(pfrom, chainActive.Tip(), GetOrphanRoot(hash));
} }
return true;
}
// Store to disk // Store to disk
CBlockIndex *pindex = NULL; CBlockIndex *pindex = NULL;
bool ret = AcceptBlock(*pblock, state, &pindex, dbp); bool ret = AcceptBlock(*pblock, state, &pindex, dbp);
if (!ret) if (pindex && pfrom) {
return error("ProcessBlock() : AcceptBlock FAILED"); mapBlockSource[pindex->GetBlockHash()] = pfrom->GetId();
// Recursively process any orphan blocks that depended on this one
vector<uint256> vWorkQueue;
vWorkQueue.push_back(hash);
for (unsigned int i = 0; i < vWorkQueue.size(); i++)
{
uint256 hashPrev = vWorkQueue[i];
for (multimap<uint256, COrphanBlock*>::iterator mi = mapOrphanBlocksByPrev.lower_bound(hashPrev);
mi != mapOrphanBlocksByPrev.upper_bound(hashPrev);
++mi)
{
CBlock block;
{
CDataStream ss(mi->second->vchBlock, SER_DISK, CLIENT_VERSION);
ss >> block;
}
block.BuildMerkleTree();
// Use a dummy CValidationState so someone can't setup nodes to counter-DoS based on orphan resolution (that is, feeding people an invalid block based on LegitBlockX in order to get anyone relaying LegitBlockX banned)
CValidationState stateDummy;
CBlockIndex *pindexChild = NULL;
if (AcceptBlock(block, stateDummy, &pindexChild))
vWorkQueue.push_back(mi->second->hashBlock);
mapOrphanBlocks.erase(mi->second->hashBlock);
delete mi->second;
} }
mapOrphanBlocksByPrev.erase(hashPrev); if (!ret)
} return error("ProcessBlock() : AcceptBlock FAILED");
} }
if (!ActivateBestChain(state, pblock)) if (!ActivateBestChain(state, pblock))
@ -2808,13 +2802,26 @@ bool static LoadBlockIndexDB()
{ {
CBlockIndex* pindex = item.second; CBlockIndex* pindex = item.second;
pindex->nChainWork = (pindex->pprev ? pindex->pprev->nChainWork : 0) + pindex->GetBlockWork(); pindex->nChainWork = (pindex->pprev ? pindex->pprev->nChainWork : 0) + pindex->GetBlockWork();
pindex->nChainTx = (pindex->pprev ? pindex->pprev->nChainTx : 0) + pindex->nTx; if (pindex->nStatus & BLOCK_HAVE_DATA) {
if (pindex->IsValid(BLOCK_VALID_TRANSACTIONS)) if (pindex->pprev) {
if (pindex->pprev->nChainTx) {
pindex->nChainTx = pindex->pprev->nChainTx + pindex->nTx;
} else {
pindex->nChainTx = 0;
mapBlocksUnlinked.insert(std::make_pair(pindex->pprev, pindex));
}
} else {
pindex->nChainTx = pindex->nTx;
}
}
if (pindex->IsValid(BLOCK_VALID_TRANSACTIONS) && (pindex->nChainTx || pindex->pprev == NULL))
setBlockIndexValid.insert(pindex); setBlockIndexValid.insert(pindex);
if (pindex->nStatus & BLOCK_FAILED_MASK && (!pindexBestInvalid || pindex->nChainWork > pindexBestInvalid->nChainWork)) if (pindex->nStatus & BLOCK_FAILED_MASK && (!pindexBestInvalid || pindex->nChainWork > pindexBestInvalid->nChainWork))
pindexBestInvalid = pindex; pindexBestInvalid = pindex;
if (pindex->pprev) if (pindex->pprev)
pindex->BuildSkip(); pindex->BuildSkip();
if (pindex->IsValid(BLOCK_VALID_TREE) && (pindexBestHeader == NULL || CBlockIndexWorkComparator()(pindexBestHeader, pindex)))
pindexBestHeader = pindex;
} }
// Load block file info // Load block file info
@ -3226,8 +3233,7 @@ bool static AlreadyHave(const CInv& inv)
pcoinsTip->HaveCoins(inv.hash); pcoinsTip->HaveCoins(inv.hash);
} }
case MSG_BLOCK: case MSG_BLOCK:
return mapBlockIndex.count(inv.hash) || return mapBlockIndex.count(inv.hash);
mapOrphanBlocks.count(inv.hash);
} }
// Don't know what it is, just say we already got one // Don't know what it is, just say we already got one
return true; return true;
@ -3375,10 +3381,6 @@ bool static ProcessMessage(CNode* pfrom, string strCommand, CDataStream& vRecv,
return true; return true;
} }
{
LOCK(cs_main);
State(pfrom->GetId())->nLastBlockProcess = GetTimeMicros();
}
@ -3587,6 +3589,8 @@ bool static ProcessMessage(CNode* pfrom, string strCommand, CDataStream& vRecv,
LOCK(cs_main); LOCK(cs_main);
std::vector<CInv> vToFetch;
for (unsigned int nInv = 0; nInv < vInv.size(); nInv++) for (unsigned int nInv = 0; nInv < vInv.size(); nInv++)
{ {
const CInv &inv = vInv[nInv]; const CInv &inv = vInv[nInv];
@ -3597,19 +3601,29 @@ bool static ProcessMessage(CNode* pfrom, string strCommand, CDataStream& vRecv,
bool fAlreadyHave = AlreadyHave(inv); bool fAlreadyHave = AlreadyHave(inv);
LogPrint("net", "got inv: %s %s peer=%d\n", inv.ToString(), fAlreadyHave ? "have" : "new", pfrom->id); LogPrint("net", "got inv: %s %s peer=%d\n", inv.ToString(), fAlreadyHave ? "have" : "new", pfrom->id);
if (!fAlreadyHave) { if (!fAlreadyHave && !fImporting && !fReindex && inv.type != MSG_BLOCK)
if (!fImporting && !fReindex) { pfrom->AskFor(inv);
if (inv.type == MSG_BLOCK)
AddBlockToQueue(pfrom->GetId(), inv.hash);
else
pfrom->AskFor(inv);
}
} else if (inv.type == MSG_BLOCK && mapOrphanBlocks.count(inv.hash)) {
PushGetBlocks(pfrom, chainActive.Tip(), GetOrphanRoot(inv.hash));
}
if (inv.type == MSG_BLOCK) if (inv.type == MSG_BLOCK) {
UpdateBlockAvailability(pfrom->GetId(), inv.hash); UpdateBlockAvailability(pfrom->GetId(), inv.hash);
if (!fAlreadyHave && !fImporting && !fReindex && !mapBlocksInFlight.count(inv.hash)) {
// First request the headers preceeding the announced block. In the normal fully-synced
// case where a new block is announced that succeeds the current tip (no reorganization),
// there are no such headers.
// Secondly, and only when we are close to being synced, we request the announced block directly,
// to avoid an extra round-trip. Note that we must *first* ask for the headers, so by the
// time the block arrives, the header chain leading up to it is already validated. Not
// doing this will result in the received block being rejected as an orphan in case it is
// not a direct successor.
pfrom->PushMessage("getheaders", chainActive.GetLocator(pindexBestHeader), inv.hash);
if (chainActive.Tip()->GetBlockTime() > GetAdjustedTime() - Params().TargetSpacing() * 20) {
vToFetch.push_back(inv);
// Mark block as in flight already, even though the actual "getdata" message only goes out
// later (within the same cs_main lock, though).
MarkBlockAsInFlight(pfrom->GetId(), inv.hash);
}
}
}
// Track requests for our stuff // Track requests for our stuff
g_signals.Inventory(inv.hash); g_signals.Inventory(inv.hash);
@ -3619,6 +3633,9 @@ bool static ProcessMessage(CNode* pfrom, string strCommand, CDataStream& vRecv,
return error("send buffer size() = %u", pfrom->nSendSize); return error("send buffer size() = %u", pfrom->nSendSize);
} }
} }
if (!vToFetch.empty())
pfrom->PushMessage("getdata", vToFetch);
} }
@ -3706,7 +3723,7 @@ bool static ProcessMessage(CNode* pfrom, string strCommand, CDataStream& vRecv,
// we must use CBlocks, as CBlockHeaders won't include the 0x00 nTx count at the end // we must use CBlocks, as CBlockHeaders won't include the 0x00 nTx count at the end
vector<CBlock> vHeaders; vector<CBlock> vHeaders;
int nLimit = 2000; int nLimit = MAX_HEADERS_RESULTS;
LogPrint("net", "getheaders %d to %s\n", (pindex ? pindex->nHeight : -1), hashStop.ToString()); LogPrint("net", "getheaders %d to %s\n", (pindex ? pindex->nHeight : -1), hashStop.ToString());
for (; pindex; pindex = chainActive.Next(pindex)) for (; pindex; pindex = chainActive.Next(pindex))
{ {
@ -3826,22 +3843,66 @@ bool static ProcessMessage(CNode* pfrom, string strCommand, CDataStream& vRecv,
} }
else if (strCommand == "headers" && !fImporting && !fReindex) // Ignore headers received while importing
{
std::vector<CBlockHeader> headers;
// Bypass the normal CBlock deserialization, as we don't want to risk deserializing 2000 full blocks.
unsigned int nCount = ReadCompactSize(vRecv);
if (nCount > MAX_HEADERS_RESULTS) {
Misbehaving(pfrom->GetId(), 20);
return error("headers message size = %u", nCount);
}
headers.resize(nCount);
for (unsigned int n = 0; n < nCount; n++) {
vRecv >> headers[n];
ReadCompactSize(vRecv); // ignore tx count; assume it is 0.
}
LOCK(cs_main);
if (nCount == 0) {
// Nothing interesting. Stop asking this peers for more headers.
return true;
}
CBlockIndex *pindexLast = NULL;
BOOST_FOREACH(const CBlockHeader& header, headers) {
CValidationState state;
if (pindexLast != NULL && header.hashPrevBlock != pindexLast->GetBlockHash()) {
Misbehaving(pfrom->GetId(), 20);
return error("non-continuous headers sequence");
}
if (!AcceptBlockHeader(header, state, &pindexLast)) {
int nDoS;
if (state.IsInvalid(nDoS)) {
if (nDoS > 0)
Misbehaving(pfrom->GetId(), nDoS);
return error("invalid header received");
}
}
}
if (pindexLast)
UpdateBlockAvailability(pfrom->GetId(), pindexLast->GetBlockHash());
if (nCount == MAX_HEADERS_RESULTS && pindexLast) {
// Headers message had its maximum size; the peer may have more headers.
// TODO: optimize: if pindexLast is an ancestor of chainActive.Tip or pindexBestHeader, continue
// from there instead.
pfrom->PushMessage("getheaders", chainActive.GetLocator(pindexLast), uint256(0));
}
}
else if (strCommand == "block" && !fImporting && !fReindex) // Ignore blocks received while importing else if (strCommand == "block" && !fImporting && !fReindex) // Ignore blocks received while importing
{ {
CBlock block; CBlock block;
vRecv >> block; vRecv >> block;
LogPrint("net", "received block %s peer=%d\n", block.GetHash().ToString(), pfrom->id);
CInv inv(MSG_BLOCK, block.GetHash()); CInv inv(MSG_BLOCK, block.GetHash());
pfrom->AddInventoryKnown(inv); LogPrint("net", "received block %s peer=%d\n", inv.hash.ToString(), pfrom->id);
{ pfrom->AddInventoryKnown(inv);
LOCK(cs_main);
// Remember who we got this block from.
mapBlockSource[inv.hash] = pfrom->GetId();
MarkBlockAsReceived(inv.hash, pfrom->GetId());
}
CValidationState state; CValidationState state;
ProcessBlock(state, pfrom, &block); ProcessBlock(state, pfrom, &block);
@ -4323,9 +4384,17 @@ bool SendMessages(CNode* pto, bool fSendTrickle)
state.rejects.clear(); state.rejects.clear();
// Start block sync // Start block sync
if (pto->fStartSync && !fImporting && !fReindex) { if (pindexBestHeader == NULL)
pto->fStartSync = false; pindexBestHeader = chainActive.Tip();
PushGetBlocks(pto, chainActive.Tip(), uint256(0)); bool fFetch = !pto->fInbound || (pindexBestHeader && (state.pindexLastCommonBlock ? state.pindexLastCommonBlock->nHeight : 0) + 144 > pindexBestHeader->nHeight);
if (!state.fSyncStarted && !pto->fClient && fFetch && !fImporting && !fReindex) {
// Only actively request headers from a single peer, unless we're close to today.
if (nSyncStarted == 0 || pindexBestHeader->GetBlockTime() > GetAdjustedTime() - 24 * 60 * 60) {
state.fSyncStarted = true;
nSyncStarted++;
CBlockIndex *pindexStart = pindexBestHeader->pprev ? pindexBestHeader->pprev : pindexBestHeader;
pto->PushMessage("getheaders", chainActive.GetLocator(pindexStart), uint256(0));
}
} }
// Resend wallet transactions that haven't gotten in a block yet // Resend wallet transactions that haven't gotten in a block yet
@ -4384,35 +4453,32 @@ bool SendMessages(CNode* pto, bool fSendTrickle)
if (!vInv.empty()) if (!vInv.empty())
pto->PushMessage("inv", vInv); pto->PushMessage("inv", vInv);
// Detect whether we're stalling
// Detect stalled peers. Require that blocks are in flight, we haven't
// received a (requested) block in one minute, and that all blocks are
// in flight for over two minutes, since we first had a chance to
// process an incoming block.
int64_t nNow = GetTimeMicros(); int64_t nNow = GetTimeMicros();
if (!pto->fDisconnect && state.nBlocksInFlight && if (!pto->fDisconnect && state.nStallingSince && state.nStallingSince < nNow - 1000000 * BLOCK_STALLING_TIMEOUT) {
state.nLastBlockReceive < state.nLastBlockProcess - BLOCK_DOWNLOAD_TIMEOUT*1000000 && // Stalling only triggers when the block download window cannot move. During normal steady state,
state.vBlocksInFlight.front().nTime < state.nLastBlockProcess - 2*BLOCK_DOWNLOAD_TIMEOUT*1000000) { // the download window should be much larger than the to-be-downloaded set of blocks, so disconnection
LogPrintf("Peer %s is stalling block download, disconnecting\n", state.name); // should only happen during initial block download.
LogPrintf("Peer=%d is stalling block download, disconnecting\n", pto->id);
pto->fDisconnect = true; pto->fDisconnect = true;
} }
// Update knowledge of peer's block availability.
ProcessBlockAvailability(pto->GetId());
// //
// Message: getdata (blocks) // Message: getdata (blocks)
// //
vector<CInv> vGetData; vector<CInv> vGetData;
while (!pto->fDisconnect && state.nBlocksToDownload && state.nBlocksInFlight < MAX_BLOCKS_IN_TRANSIT_PER_PEER) { if (!pto->fDisconnect && !pto->fClient && fFetch && state.nBlocksInFlight < MAX_BLOCKS_IN_TRANSIT_PER_PEER) {
uint256 hash = state.vBlocksToDownload.front(); vector<CBlockIndex*> vToDownload;
vGetData.push_back(CInv(MSG_BLOCK, hash)); NodeId staller = -1;
MarkBlockAsInFlight(pto->GetId(), hash); FindNextBlocksToDownload(pto->GetId(), MAX_BLOCKS_IN_TRANSIT_PER_PEER - state.nBlocksInFlight, vToDownload, staller);
LogPrint("net", "Requesting block %s peer=%d\n", hash.ToString(), pto->id); BOOST_FOREACH(CBlockIndex *pindex, vToDownload) {
if (vGetData.size() >= 1000) vGetData.push_back(CInv(MSG_BLOCK, pindex->GetBlockHash()));
{ MarkBlockAsInFlight(pto->GetId(), pindex->GetBlockHash(), pindex);
pto->PushMessage("getdata", vGetData); LogPrint("net", "Requesting block %s peer=%d\n", pindex->GetBlockHash().ToString(), pto->id);
vGetData.clear(); }
if (state.nBlocksInFlight == 0 && staller != -1) {
if (State(staller)->nStallingSince == 0)
State(staller)->nStallingSince = nNow;
} }
} }
@ -4519,12 +4585,6 @@ public:
delete (*it1).second; delete (*it1).second;
mapBlockIndex.clear(); mapBlockIndex.clear();
// orphan blocks
std::map<uint256, COrphanBlock*>::iterator it2 = mapOrphanBlocks.begin();
for (; it2 != mapOrphanBlocks.end(); it2++)
delete (*it2).second;
mapOrphanBlocks.clear();
// orphan transactions // orphan transactions
mapOrphanTransactions.clear(); mapOrphanTransactions.clear();
mapOrphanTransactionsByPrev.clear(); mapOrphanTransactionsByPrev.clear();

21
src/main.h

@ -72,9 +72,17 @@ static const int MAX_SCRIPTCHECK_THREADS = 16;
/** -par default (number of script-checking threads, 0 = auto) */ /** -par default (number of script-checking threads, 0 = auto) */
static const int DEFAULT_SCRIPTCHECK_THREADS = 0; static const int DEFAULT_SCRIPTCHECK_THREADS = 0;
/** Number of blocks that can be requested at any given time from a single peer. */ /** Number of blocks that can be requested at any given time from a single peer. */
static const int MAX_BLOCKS_IN_TRANSIT_PER_PEER = 128; static const int MAX_BLOCKS_IN_TRANSIT_PER_PEER = 16;
/** Timeout in seconds before considering a block download peer unresponsive. */ /** Timeout in seconds during which a peer must stall block download progress before being disconnected. */
static const unsigned int BLOCK_DOWNLOAD_TIMEOUT = 60; static const unsigned int BLOCK_STALLING_TIMEOUT = 2;
/** Number of headers sent in one getheaders result. We rely on the assumption that if a peer sends
* less than this number, we reached their tip. Changing this value is a protocol upgrade. */
static const unsigned int MAX_HEADERS_RESULTS = 2000;
/** Size of the "block download window": how far ahead of our current height do we fetch?
* Larger windows tolerate larger download speed differences between peer, but increase the potential
* degree of disordering of blocks on disk (which make reindexing and in the future perhaps pruning
* harder). We'll probably want to make this a per-peer adaptive value at some point. */
static const unsigned int BLOCK_DOWNLOAD_WINDOW = 1024;
/** "reject" message codes **/ /** "reject" message codes **/
static const unsigned char REJECT_MALFORMED = 0x01; static const unsigned char REJECT_MALFORMED = 0x01;
@ -137,8 +145,6 @@ void RegisterNodeSignals(CNodeSignals& nodeSignals);
/** Unregister a network node */ /** Unregister a network node */
void UnregisterNodeSignals(CNodeSignals& nodeSignals); void UnregisterNodeSignals(CNodeSignals& nodeSignals);
void PushGetBlocks(CNode* pnode, CBlockIndex* pindexBegin, uint256 hashEnd);
/** Process an incoming block */ /** Process an incoming block */
bool ProcessBlock(CValidationState &state, CNode* pfrom, CBlock* pblock, CDiskBlockPos *dbp = NULL); bool ProcessBlock(CValidationState &state, CNode* pfrom, CBlock* pblock, CDiskBlockPos *dbp = NULL);
/** Check whether enough disk space is available for an incoming block */ /** Check whether enough disk space is available for an incoming block */
@ -439,9 +445,6 @@ bool DisconnectBlock(CBlock& block, CValidationState& state, CBlockIndex* pindex
// Apply the effects of this block (with given index) on the UTXO set represented by coins // Apply the effects of this block (with given index) on the UTXO set represented by coins
bool ConnectBlock(CBlock& block, CValidationState& state, CBlockIndex* pindex, CCoinsViewCache& coins, bool fJustCheck = false); bool ConnectBlock(CBlock& block, CValidationState& state, CBlockIndex* pindex, CCoinsViewCache& coins, bool fJustCheck = false);
// Add this block to the block index, and if necessary, switch the active block chain to this
bool AddToBlockIndex(CBlock& block, CValidationState& state, const CDiskBlockPos& pos);
// Context-independent validity checks // Context-independent validity checks
bool CheckBlockHeader(const CBlockHeader& block, CValidationState& state, bool fCheckPOW = true); bool CheckBlockHeader(const CBlockHeader& block, CValidationState& state, bool fCheckPOW = true);
bool CheckBlock(const CBlock& block, CValidationState& state, bool fCheckPOW = true, bool fCheckMerkleRoot = true); bool CheckBlock(const CBlock& block, CValidationState& state, bool fCheckPOW = true, bool fCheckMerkleRoot = true);
@ -449,7 +452,7 @@ bool CheckBlock(const CBlock& block, CValidationState& state, bool fCheckPOW = t
// Store block on disk // Store block on disk
// if dbp is provided, the file is known to already reside on disk // if dbp is provided, the file is known to already reside on disk
bool AcceptBlock(CBlock& block, CValidationState& state, CBlockIndex **pindex, CDiskBlockPos* dbp = NULL); bool AcceptBlock(CBlock& block, CValidationState& state, CBlockIndex **pindex, CDiskBlockPos* dbp = NULL);
bool AcceptBlockHeader(CBlockHeader& block, CValidationState& state, CBlockIndex **ppindex= NULL); bool AcceptBlockHeader(const CBlockHeader& block, CValidationState& state, CBlockIndex **ppindex= NULL);

50
src/net.cpp

@ -73,7 +73,6 @@ map<CNetAddr, LocalServiceInfo> mapLocalHost;
static bool vfReachable[NET_MAX] = {}; static bool vfReachable[NET_MAX] = {};
static bool vfLimited[NET_MAX] = {}; static bool vfLimited[NET_MAX] = {};
static CNode* pnodeLocalHost = NULL; static CNode* pnodeLocalHost = NULL;
static CNode* pnodeSync = NULL;
uint64_t nLocalHostNonce = 0; uint64_t nLocalHostNonce = 0;
static std::vector<ListenSocket> vhListenSocket; static std::vector<ListenSocket> vhListenSocket;
CAddrMan addrman; CAddrMan addrman;
@ -519,10 +518,6 @@ void CNode::CloseSocketDisconnect()
TRY_LOCK(cs_vRecvMsg, lockRecv); TRY_LOCK(cs_vRecvMsg, lockRecv);
if (lockRecv) if (lockRecv)
vRecvMsg.clear(); vRecvMsg.clear();
// if this was the sync node, we'll need a new one
if (this == pnodeSync)
pnodeSync = NULL;
} }
void CNode::PushVersion() void CNode::PushVersion()
@ -615,7 +610,6 @@ void CNode::copyStats(CNodeStats &stats)
X(nSendBytes); X(nSendBytes);
X(nRecvBytes); X(nRecvBytes);
X(fWhitelisted); X(fWhitelisted);
stats.fSyncNode = (this == pnodeSync);
// It is common for nodes with good ping times to suddenly become lagged, // It is common for nodes with good ping times to suddenly become lagged,
// due to a new block arriving or other large transfer. // due to a new block arriving or other large transfer.
@ -1487,61 +1481,20 @@ bool OpenNetworkConnection(const CAddress& addrConnect, CSemaphoreGrant *grantOu
} }
// for now, use a very simple selection metric: the node from which we received
// most recently
static int64_t NodeSyncScore(const CNode *pnode) {
return pnode->nLastRecv;
}
void static StartSync(const vector<CNode*> &vNodes) {
CNode *pnodeNewSync = NULL;
int64_t nBestScore = 0;
int nBestHeight = g_signals.GetHeight().get_value_or(0);
// Iterate over all nodes
BOOST_FOREACH(CNode* pnode, vNodes) {
// check preconditions for allowing a sync
if (!pnode->fClient && !pnode->fOneShot &&
!pnode->fDisconnect && pnode->fSuccessfullyConnected &&
(pnode->nStartingHeight > (nBestHeight - 144)) &&
(pnode->nVersion < NOBLKS_VERSION_START || pnode->nVersion >= NOBLKS_VERSION_END)) {
// if ok, compare node's score with the best so far
int64_t nScore = NodeSyncScore(pnode);
if (pnodeNewSync == NULL || nScore > nBestScore) {
pnodeNewSync = pnode;
nBestScore = nScore;
}
}
}
// if a new sync candidate was found, start sync!
if (pnodeNewSync) {
pnodeNewSync->fStartSync = true;
pnodeSync = pnodeNewSync;
}
}
void ThreadMessageHandler() void ThreadMessageHandler()
{ {
SetThreadPriority(THREAD_PRIORITY_BELOW_NORMAL); SetThreadPriority(THREAD_PRIORITY_BELOW_NORMAL);
while (true) while (true)
{ {
bool fHaveSyncNode = false;
vector<CNode*> vNodesCopy; vector<CNode*> vNodesCopy;
{ {
LOCK(cs_vNodes); LOCK(cs_vNodes);
vNodesCopy = vNodes; vNodesCopy = vNodes;
BOOST_FOREACH(CNode* pnode, vNodesCopy) { BOOST_FOREACH(CNode* pnode, vNodesCopy) {
pnode->AddRef(); pnode->AddRef();
if (pnode == pnodeSync)
fHaveSyncNode = true;
} }
} }
if (!fHaveSyncNode)
StartSync(vNodesCopy);
// Poll the connected nodes for messages // Poll the connected nodes for messages
CNode* pnodeTrickle = NULL; CNode* pnodeTrickle = NULL;
if (!vNodesCopy.empty()) if (!vNodesCopy.empty())
@ -2078,10 +2031,7 @@ CNode::CNode(SOCKET hSocketIn, CAddress addrIn, std::string addrNameIn, bool fIn
nSendSize = 0; nSendSize = 0;
nSendOffset = 0; nSendOffset = 0;
hashContinue = 0; hashContinue = 0;
pindexLastGetBlocksBegin = 0;
hashLastGetBlocksEnd = 0;
nStartingHeight = -1; nStartingHeight = -1;
fStartSync = false;
fGetAddr = false; fGetAddr = false;
fRelayTxes = false; fRelayTxes = false;
setInventoryKnown.max_size(SendBufferSize() / 1000); setInventoryKnown.max_size(SendBufferSize() / 1000);

4
src/net.h

@ -158,7 +158,6 @@ public:
int nStartingHeight; int nStartingHeight;
uint64_t nSendBytes; uint64_t nSendBytes;
uint64_t nRecvBytes; uint64_t nRecvBytes;
bool fSyncNode;
bool fWhitelisted; bool fWhitelisted;
double dPingTime; double dPingTime;
double dPingWait; double dPingWait;
@ -276,10 +275,7 @@ protected:
public: public:
uint256 hashContinue; uint256 hashContinue;
CBlockIndex* pindexLastGetBlocksBegin;
uint256 hashLastGetBlocksEnd;
int nStartingHeight; int nStartingHeight;
bool fStartSync;
// flood relay // flood relay
std::vector<CAddress> vAddrToSend; std::vector<CAddress> vAddrToSend;

23
src/qt/forms/rpcconsole.ui

@ -836,29 +836,6 @@
</property> </property>
</widget> </widget>
</item> </item>
<item row="4" column="0">
<widget class="QLabel" name="label_25">
<property name="text">
<string>Sync Node</string>
</property>
</widget>
</item>
<item row="4" column="2">
<widget class="QLabel" name="peerSyncNode">
<property name="cursor">
<cursorShape>IBeamCursor</cursorShape>
</property>
<property name="text">
<string>N/A</string>
</property>
<property name="textFormat">
<enum>Qt::PlainText</enum>
</property>
<property name="textInteractionFlags">
<set>Qt::LinksAccessibleByMouse|Qt::TextSelectableByKeyboard|Qt::TextSelectableByMouse</set>
</property>
</widget>
</item>
<item row="5" column="0"> <item row="5" column="0">
<widget class="QLabel" name="label_29"> <widget class="QLabel" name="label_29">
<property name="text"> <property name="text">

1
src/qt/rpcconsole.cpp

@ -611,7 +611,6 @@ void RPCConsole::updateNodeDetail(const CNodeCombinedStats *stats)
ui->peerSubversion->setText(QString::fromStdString(stats->nodeStats.cleanSubVer)); ui->peerSubversion->setText(QString::fromStdString(stats->nodeStats.cleanSubVer));
ui->peerDirection->setText(stats->nodeStats.fInbound ? tr("Inbound") : tr("Outbound")); ui->peerDirection->setText(stats->nodeStats.fInbound ? tr("Inbound") : tr("Outbound"));
ui->peerHeight->setText(QString("%1").arg(stats->nodeStats.nStartingHeight)); ui->peerHeight->setText(QString("%1").arg(stats->nodeStats.nStartingHeight));
ui->peerSyncNode->setText(stats->nodeStats.fSyncNode ? tr("Yes") : tr("No"));
// This check fails for example if the lock was busy and // This check fails for example if the lock was busy and
// nodeStateStats couldn't be fetched. // nodeStateStats couldn't be fetched.

1
src/rpcnet.cpp

@ -139,7 +139,6 @@ Value getpeerinfo(const Array& params, bool fHelp)
obj.push_back(Pair("banscore", statestats.nMisbehavior)); obj.push_back(Pair("banscore", statestats.nMisbehavior));
obj.push_back(Pair("syncheight", statestats.nSyncHeight)); obj.push_back(Pair("syncheight", statestats.nSyncHeight));
} }
obj.push_back(Pair("syncnode", stats.fSyncNode));
obj.push_back(Pair("whitelisted", stats.fWhitelisted)); obj.push_back(Pair("whitelisted", stats.fWhitelisted));
ret.push_back(obj); ret.push_back(obj);

5
src/version.h

@ -33,8 +33,11 @@ static const int PROTOCOL_VERSION = 70002;
// initial proto version, to be increased after version/verack negotiation // initial proto version, to be increased after version/verack negotiation
static const int INIT_PROTO_VERSION = 209; static const int INIT_PROTO_VERSION = 209;
// In this version, 'getheaders' was introduced.
static const int GETHEADERS_VERSION = 31800;
// disconnect from peers older than this proto version // disconnect from peers older than this proto version
static const int MIN_PEER_PROTO_VERSION = 209; static const int MIN_PEER_PROTO_VERSION = GETHEADERS_VERSION;
// nTime field added to CAddress, starting with this version; // nTime field added to CAddress, starting with this version;
// if possible, avoid requesting addresses nodes older than this // if possible, avoid requesting addresses nodes older than this

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