Merge #8020: Use SipHash-2-4 for various non-cryptographic hashes
a68ec21
Use SipHash-2-4 for address relay selection (Pieter Wuille)8cc9cfe
Switch CTxMempool::mapTx to use a hash index for txids (Pieter Wuille)382c871
Use SipHash-2-4 for CCoinsCache index (Pieter Wuille)0b1295b
Add SipHash-2-4 primitives to hash (Pieter Wuille)
This commit is contained in:
commit
5e374f7306
9 changed files with 166 additions and 88 deletions
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@ -56,7 +56,11 @@ void CCoinsViewBacked::SetBackend(CCoinsView &viewIn) { base = &viewIn; }
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bool CCoinsViewBacked::BatchWrite(CCoinsMap &mapCoins, const uint256 &hashBlock) { return base->BatchWrite(mapCoins, hashBlock); }
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CCoinsViewCursor *CCoinsViewBacked::Cursor() const { return base->Cursor(); }
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CCoinsKeyHasher::CCoinsKeyHasher() : salt(GetRandHash()) {}
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SaltedTxidHasher::SaltedTxidHasher()
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{
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GetRandBytes((unsigned char*)&k0, sizeof(k0));
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GetRandBytes((unsigned char*)&k1, sizeof(k1));
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}
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CCoinsViewCache::CCoinsViewCache(CCoinsView *baseIn) : CCoinsViewBacked(baseIn), hasModifier(false), cachedCoinsUsage(0) { }
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14
src/coins.h
14
src/coins.h
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@ -8,6 +8,7 @@
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#include "compressor.h"
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#include "core_memusage.h"
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#include "hash.h"
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#include "memusage.h"
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#include "serialize.h"
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#include "uint256.h"
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@ -264,21 +265,22 @@ public:
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}
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};
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class CCoinsKeyHasher
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class SaltedTxidHasher
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{
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private:
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uint256 salt;
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/** Salt */
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uint64_t k0, k1;
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public:
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CCoinsKeyHasher();
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SaltedTxidHasher();
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/**
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* This *must* return size_t. With Boost 1.46 on 32-bit systems the
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* unordered_map will behave unpredictably if the custom hasher returns a
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* uint64_t, resulting in failures when syncing the chain (#4634).
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*/
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size_t operator()(const uint256& key) const {
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return key.GetHash(salt);
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size_t operator()(const uint256& txid) const {
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return SipHashUint256(k0, k1, txid);
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}
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};
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@ -295,7 +297,7 @@ struct CCoinsCacheEntry
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CCoinsCacheEntry() : coins(), flags(0) {}
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};
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typedef boost::unordered_map<uint256, CCoinsCacheEntry, CCoinsKeyHasher> CCoinsMap;
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typedef boost::unordered_map<uint256, CCoinsCacheEntry, SaltedTxidHasher> CCoinsMap;
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/** Cursor for iterating over CoinsView state */
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class CCoinsViewCursor
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94
src/hash.cpp
94
src/hash.cpp
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@ -81,3 +81,97 @@ void BIP32Hash(const ChainCode &chainCode, unsigned int nChild, unsigned char he
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num[3] = (nChild >> 0) & 0xFF;
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CHMAC_SHA512(chainCode.begin(), chainCode.size()).Write(&header, 1).Write(data, 32).Write(num, 4).Finalize(output);
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}
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#define ROTL(x, b) (uint64_t)(((x) << (b)) | ((x) >> (64 - (b))))
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#define SIPROUND do { \
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v0 += v1; v1 = ROTL(v1, 13); v1 ^= v0; \
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v0 = ROTL(v0, 32); \
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v2 += v3; v3 = ROTL(v3, 16); v3 ^= v2; \
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v0 += v3; v3 = ROTL(v3, 21); v3 ^= v0; \
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v2 += v1; v1 = ROTL(v1, 17); v1 ^= v2; \
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v2 = ROTL(v2, 32); \
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} while (0)
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CSipHasher::CSipHasher(uint64_t k0, uint64_t k1)
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{
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v[0] = 0x736f6d6570736575ULL ^ k0;
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v[1] = 0x646f72616e646f6dULL ^ k1;
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v[2] = 0x6c7967656e657261ULL ^ k0;
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v[3] = 0x7465646279746573ULL ^ k1;
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count = 0;
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}
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CSipHasher& CSipHasher::Write(uint64_t data)
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{
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uint64_t v0 = v[0], v1 = v[1], v2 = v[2], v3 = v[3];
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v3 ^= data;
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SIPROUND;
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SIPROUND;
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v0 ^= data;
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v[0] = v0;
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v[1] = v1;
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v[2] = v2;
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v[3] = v3;
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count++;
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return *this;
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}
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uint64_t CSipHasher::Finalize() const
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{
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uint64_t v0 = v[0], v1 = v[1], v2 = v[2], v3 = v[3];
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v3 ^= ((uint64_t)count) << 59;
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SIPROUND;
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SIPROUND;
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v0 ^= ((uint64_t)count) << 59;
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v2 ^= 0xFF;
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SIPROUND;
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SIPROUND;
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SIPROUND;
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SIPROUND;
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return v0 ^ v1 ^ v2 ^ v3;
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}
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uint64_t SipHashUint256(uint64_t k0, uint64_t k1, const uint256& val)
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{
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/* Specialized implementation for efficiency */
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uint64_t d = val.GetUint64(0);
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uint64_t v0 = 0x736f6d6570736575ULL ^ k0;
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uint64_t v1 = 0x646f72616e646f6dULL ^ k1;
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uint64_t v2 = 0x6c7967656e657261ULL ^ k0;
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uint64_t v3 = 0x7465646279746573ULL ^ k1 ^ d;
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SIPROUND;
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SIPROUND;
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v0 ^= d;
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d = val.GetUint64(1);
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v3 ^= d;
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SIPROUND;
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SIPROUND;
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v0 ^= d;
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d = val.GetUint64(2);
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v3 ^= d;
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SIPROUND;
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SIPROUND;
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v0 ^= d;
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d = val.GetUint64(3);
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v3 ^= d;
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SIPROUND;
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SIPROUND;
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v0 ^= d;
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v3 ^= ((uint64_t)4) << 59;
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SIPROUND;
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SIPROUND;
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v0 ^= ((uint64_t)4) << 59;
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v2 ^= 0xFF;
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SIPROUND;
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SIPROUND;
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SIPROUND;
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SIPROUND;
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return v0 ^ v1 ^ v2 ^ v3;
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}
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15
src/hash.h
15
src/hash.h
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@ -171,4 +171,19 @@ unsigned int MurmurHash3(unsigned int nHashSeed, const std::vector<unsigned char
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void BIP32Hash(const ChainCode &chainCode, unsigned int nChild, unsigned char header, const unsigned char data[32], unsigned char output[64]);
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/** SipHash-2-4, using a uint64_t-based (rather than byte-based) interface */
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class CSipHasher
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{
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private:
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uint64_t v[4];
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int count;
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public:
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CSipHasher(uint64_t k0, uint64_t k1);
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CSipHasher& Write(uint64_t data);
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uint64_t Finalize() const;
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};
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uint64_t SipHashUint256(uint64_t k0, uint64_t k1, const uint256& val);
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#endif // BITCOIN_HASH_H
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20
src/main.cpp
20
src/main.cpp
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@ -4698,25 +4698,23 @@ bool static ProcessMessage(CNode* pfrom, string strCommand, CDataStream& vRecv,
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LOCK(cs_vNodes);
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// Use deterministic randomness to send to the same nodes for 24 hours
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// at a time so the addrKnowns of the chosen nodes prevent repeats
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static uint256 hashSalt;
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if (hashSalt.IsNull())
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hashSalt = GetRandHash();
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static uint64_t salt0 = 0, salt1 = 0;
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while (salt0 == 0 && salt1 == 0) {
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GetRandBytes((unsigned char*)&salt0, sizeof(salt0));
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GetRandBytes((unsigned char*)&salt1, sizeof(salt1));
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}
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uint64_t hashAddr = addr.GetHash();
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uint256 hashRand = ArithToUint256(UintToArith256(hashSalt) ^ (hashAddr<<32) ^ ((GetTime()+hashAddr)/(24*60*60)));
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hashRand = Hash(BEGIN(hashRand), END(hashRand));
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multimap<uint256, CNode*> mapMix;
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multimap<uint64_t, CNode*> mapMix;
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const CSipHasher hasher = CSipHasher(salt0, salt1).Write(hashAddr << 32).Write((GetTime() + hashAddr) / (24*60*60));
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BOOST_FOREACH(CNode* pnode, vNodes)
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{
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if (pnode->nVersion < CADDR_TIME_VERSION)
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continue;
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unsigned int nPointer;
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memcpy(&nPointer, &pnode, sizeof(nPointer));
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uint256 hashKey = ArithToUint256(UintToArith256(hashRand) ^ nPointer);
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hashKey = Hash(BEGIN(hashKey), END(hashKey));
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uint64_t hashKey = CSipHasher(hasher).Write(pnode->id).Finalize();
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mapMix.insert(make_pair(hashKey, pnode));
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}
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int nRelayNodes = fReachable ? 2 : 1; // limited relaying of addresses outside our network(s)
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for (multimap<uint256, CNode*>::iterator mi = mapMix.begin(); mi != mapMix.end() && nRelayNodes-- > 0; ++mi)
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for (multimap<uint64_t, CNode*>::iterator mi = mapMix.begin(); mi != mapMix.end() && nRelayNodes-- > 0; ++mi)
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((*mi).second)->PushAddress(addr);
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}
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}
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@ -47,4 +47,24 @@ BOOST_AUTO_TEST_CASE(murmurhash3)
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#undef T
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}
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BOOST_AUTO_TEST_CASE(siphash)
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{
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CSipHasher hasher(0x0706050403020100ULL, 0x0F0E0D0C0B0A0908ULL);
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BOOST_CHECK_EQUAL(hasher.Finalize(), 0x726fdb47dd0e0e31ull);
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hasher.Write(0x0706050403020100ULL);
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BOOST_CHECK_EQUAL(hasher.Finalize(), 0x93f5f5799a932462ull);
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hasher.Write(0x0F0E0D0C0B0A0908ULL);
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BOOST_CHECK_EQUAL(hasher.Finalize(), 0x3f2acc7f57c29bdbull);
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hasher.Write(0x1716151413121110ULL);
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BOOST_CHECK_EQUAL(hasher.Finalize(), 0xb8ad50c6f649af94ull);
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hasher.Write(0x1F1E1D1C1B1A1918ULL);
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BOOST_CHECK_EQUAL(hasher.Finalize(), 0x7127512f72f27cceull);
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hasher.Write(0x2726252423222120ULL);
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BOOST_CHECK_EQUAL(hasher.Finalize(), 0x0e3ea96b5304a7d0ull);
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hasher.Write(0x2F2E2D2C2B2A2928ULL);
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BOOST_CHECK_EQUAL(hasher.Finalize(), 0xe612a3cb9ecba951ull);
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BOOST_CHECK_EQUAL(SipHashUint256(0x0706050403020100ULL, 0x0F0E0D0C0B0A0908ULL, uint256S("1f1e1d1c1b1a191817161514131211100f0e0d0c0b0a09080706050403020100")), 0x7127512f72f27cceull);
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}
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BOOST_AUTO_TEST_SUITE_END()
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@ -17,6 +17,7 @@
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#undef foreach
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#include "boost/multi_index_container.hpp"
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#include "boost/multi_index/ordered_index.hpp"
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#include "boost/multi_index/hashed_index.hpp"
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class CAutoFile;
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class CBlockIndex;
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CTxMemPoolEntry,
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boost::multi_index::indexed_by<
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// sorted by txid
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boost::multi_index::ordered_unique<mempoolentry_txid>,
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boost::multi_index::hashed_unique<mempoolentry_txid, SaltedTxidHasher>,
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// sorted by fee rate
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boost::multi_index::ordered_non_unique<
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boost::multi_index::tag<descendant_score>,
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@ -80,67 +80,3 @@ template std::string base_blob<256>::GetHex() const;
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template std::string base_blob<256>::ToString() const;
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template void base_blob<256>::SetHex(const char*);
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template void base_blob<256>::SetHex(const std::string&);
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static void inline HashMix(uint32_t& a, uint32_t& b, uint32_t& c)
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{
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// Taken from lookup3, by Bob Jenkins.
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a -= c;
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a ^= ((c << 4) | (c >> 28));
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c += b;
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b -= a;
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b ^= ((a << 6) | (a >> 26));
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a += c;
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c -= b;
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c ^= ((b << 8) | (b >> 24));
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b += a;
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a -= c;
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a ^= ((c << 16) | (c >> 16));
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c += b;
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b -= a;
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b ^= ((a << 19) | (a >> 13));
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a += c;
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c -= b;
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c ^= ((b << 4) | (b >> 28));
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b += a;
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}
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static void inline HashFinal(uint32_t& a, uint32_t& b, uint32_t& c)
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{
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// Taken from lookup3, by Bob Jenkins.
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c ^= b;
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c -= ((b << 14) | (b >> 18));
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a ^= c;
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a -= ((c << 11) | (c >> 21));
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b ^= a;
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b -= ((a << 25) | (a >> 7));
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c ^= b;
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c -= ((b << 16) | (b >> 16));
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a ^= c;
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a -= ((c << 4) | (c >> 28));
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b ^= a;
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b -= ((a << 14) | (a >> 18));
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c ^= b;
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c -= ((b << 24) | (b >> 8));
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}
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uint64_t uint256::GetHash(const uint256& salt) const
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{
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uint32_t a, b, c;
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const uint32_t *pn = (const uint32_t*)data;
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const uint32_t *salt_pn = (const uint32_t*)salt.data;
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a = b = c = 0xdeadbeef + WIDTH;
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a += pn[0] ^ salt_pn[0];
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b += pn[1] ^ salt_pn[1];
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c += pn[2] ^ salt_pn[2];
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HashMix(a, b, c);
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a += pn[3] ^ salt_pn[3];
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b += pn[4] ^ salt_pn[4];
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c += pn[5] ^ salt_pn[5];
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HashMix(a, b, c);
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a += pn[6] ^ salt_pn[6];
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b += pn[7] ^ salt_pn[7];
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HashFinal(a, b, c);
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return ((((uint64_t)b) << 32) | c);
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}
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@ -83,6 +83,19 @@ public:
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return sizeof(data);
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}
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uint64_t GetUint64(int pos) const
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{
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const uint8_t* ptr = data + pos * 8;
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return ((uint64_t)ptr[0]) | \
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((uint64_t)ptr[1]) << 8 | \
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((uint64_t)ptr[2]) << 16 | \
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((uint64_t)ptr[3]) << 24 | \
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((uint64_t)ptr[4]) << 32 | \
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((uint64_t)ptr[5]) << 40 | \
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((uint64_t)ptr[6]) << 48 | \
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((uint64_t)ptr[7]) << 56;
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}
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template<typename Stream>
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void Serialize(Stream& s, int nType, int nVersion) const
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{
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@ -127,11 +140,6 @@ public:
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{
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return ReadLE64(data);
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}
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/** A more secure, salted hash function.
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* @note This hash is not stable between little and big endian.
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*/
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uint64_t GetHash(const uint256& salt) const;
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};
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/* uint256 from const char *.
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