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-rw-r--r--src/main.cpp103
1 files changed, 47 insertions, 56 deletions
diff --git a/src/main.cpp b/src/main.cpp
index 1294e5b2ed..7baf33c39f 100644
--- a/src/main.cpp
+++ b/src/main.cpp
@@ -125,9 +125,14 @@ namespace {
} // anon namespace
-// Forward reference functions defined here:
+// Bloom filter to limit respend relays to one
static const unsigned int MAX_DOUBLESPEND_BLOOM = 1000;
-static bool RelayableRespend(const COutPoint& outPoint, const CTransaction& doubleSpend, bool fInBlock, CBloomFilter& filter);
+static CBloomFilter doubleSpendFilter;
+void InitRespendFilter() {
+ seed_insecure_rand();
+ doubleSpendFilter = CBloomFilter(MAX_DOUBLESPEND_BLOOM, 0.01, insecure_rand(), BLOOM_UPDATE_NONE);
+}
+
//////////////////////////////////////////////////////////////////////////////
//
@@ -151,24 +156,10 @@ struct CMainSignals {
boost::signals2::signal<void (const uint256 &)> Inventory;
// Tells listeners to broadcast their data.
boost::signals2::signal<void ()> Broadcast;
- // Notifies listeners of detection of a double-spent transaction. Arguments are outpoint that is
- // double-spent, first transaction seen, double-spend transaction, and whether the second double-spend
- // transaction was first seen in a block.
- // Note: only notifies if the previous transaction is in the memory pool; if previous transction was in a block,
- // then the double-spend simply fails when we try to lookup the inputs in the current UTXO set.
- boost::signals2::signal<bool (const COutPoint&, const CTransaction&, bool)> DetectedDoubleSpend;
} g_signals;
} // anon namespace
-void RegisterInternalSignals() {
- static CBloomFilter doubleSpendFilter;
- seed_insecure_rand();
- doubleSpendFilter = CBloomFilter(MAX_DOUBLESPEND_BLOOM, 0.01, insecure_rand(), BLOOM_UPDATE_NONE);
-
- g_signals.DetectedDoubleSpend.connect(boost::bind(RelayableRespend, _1, _2, _3, doubleSpendFilter));
-}
-
void RegisterWallet(CWalletInterface* pwalletIn) {
g_signals.SyncTransaction.connect(boost::bind(&CWalletInterface::SyncTransaction, pwalletIn, _1, _2));
@@ -908,6 +899,45 @@ bool RateLimitExceeded(double& dCount, int64_t& nLastTime, int64_t nLimit, unsig
return false;
}
+static bool RelayableRespend(const COutPoint& outPoint, const CTransaction& doubleSpend, bool fInBlock, CBloomFilter& filter)
+{
+ // Relaying double-spend attempts to our peers lets them detect when
+ // somebody might be trying to cheat them. However, blindly relaying
+ // every double-spend across the entire network gives attackers
+ // a denial-of-service attack: just generate a stream of double-spends
+ // re-spending the same (limited) set of outpoints owned by the attacker.
+ // So, we use a bloom filter and only relay (at most) the first double
+ // spend for each outpoint. False-positives ("we have already relayed")
+ // are OK, because if the peer doesn't hear about the double-spend
+ // from us they are very likely to hear about it from another peer, since
+ // each peer uses a different, randomized bloom filter.
+
+ if (fInBlock || filter.contains(outPoint)) return false;
+
+ // Apply an independent rate limit to double-spend relays
+ static double dRespendCount;
+ static int64_t nLastRespendTime;
+ static int64_t nRespendLimit = GetArg("-limitrespendrelay", 100);
+ unsigned int nSize = ::GetSerializeSize(doubleSpend, SER_NETWORK, PROTOCOL_VERSION);
+
+ if (RateLimitExceeded(dRespendCount, nLastRespendTime, nRespendLimit, nSize))
+ {
+ LogPrint("mempool", "Double-spend relay rejected by rate limiter\n");
+ return false;
+ }
+
+ LogPrint("mempool", "Rate limit dRespendCount: %g => %g\n", dRespendCount, dRespendCount+nSize);
+
+ // Clear the filter on average every MAX_DOUBLE_SPEND_BLOOM
+ // insertions
+ if (insecure_rand()%MAX_DOUBLESPEND_BLOOM == 0)
+ filter.clear();
+
+ filter.insert(outPoint);
+
+ return true;
+}
+
bool AcceptToMemoryPool(CTxMemPool& pool, CValidationState &state, const CTransaction &tx, bool fLimitFree,
bool* pfMissingInputs, bool fRejectInsaneFee)
{
@@ -945,7 +975,7 @@ bool AcceptToMemoryPool(CTxMemPool& pool, CValidationState &state, const CTransa
// Does tx conflict with a member of the pool, and is it not equivalent to that member?
if (pool.mapNextTx.count(outpoint) && !tx.IsEquivalentTo(*pool.mapNextTx[outpoint].ptx))
{
- relayableRespend = g_signals.DetectedDoubleSpend(outpoint, tx, false);
+ relayableRespend = RelayableRespend(outpoint, tx, false, doubleSpendFilter);
if (!relayableRespend)
return false;
}
@@ -1057,45 +1087,6 @@ bool AcceptToMemoryPool(CTxMemPool& pool, CValidationState &state, const CTransa
return !relayableRespend;
}
-static bool RelayableRespend(const COutPoint& outPoint, const CTransaction& doubleSpend, bool fInBlock, CBloomFilter& filter)
-{
- // Relaying double-spend attempts to our peers lets them detect when
- // somebody might be trying to cheat them. However, blindly relaying
- // every double-spend across the entire network gives attackers
- // a denial-of-service attack: just generate a stream of double-spends
- // re-spending the same (limited) set of outpoints owned by the attacker.
- // So, we use a bloom filter and only relay (at most) the first double
- // spend for each outpoint. False-positives ("we have already relayed")
- // are OK, because if the peer doesn't hear about the double-spend
- // from us they are very likely to hear about it from another peer, since
- // each peer uses a different, randomized bloom filter.
-
- if (fInBlock || filter.contains(outPoint)) return false;
-
- // Apply an independent rate limit to double-spend relays
- static double dRespendCount;
- static int64_t nLastRespendTime;
- static int64_t nRespendLimit = GetArg("-limitrespendrelay", 100);
- unsigned int nSize = ::GetSerializeSize(doubleSpend, SER_NETWORK, PROTOCOL_VERSION);
-
- if (RateLimitExceeded(dRespendCount, nLastRespendTime, nRespendLimit, nSize))
- {
- LogPrint("mempool", "Double-spend relay rejected by rate limiter\n");
- return false;
- }
-
- LogPrint("mempool", "Rate limit dRespendCount: %g => %g\n", dRespendCount, dRespendCount+nSize);
-
- // Clear the filter on average every MAX_DOUBLE_SPEND_BLOOM
- // insertions
- if (insecure_rand()%MAX_DOUBLESPEND_BLOOM == 0)
- filter.clear();
-
- filter.insert(outPoint);
-
- return true;
-}
-
int CMerkleTx::GetDepthInMainChainINTERNAL(CBlockIndex* &pindexRet) const
{