Merge pull request #7113
086ee67 Switch to a more efficient rolling Bloom filter (Pieter Wuille)
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@ -216,30 +216,54 @@ void CBloomFilter::UpdateEmptyFull()
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isEmpty = empty;
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isEmpty = empty;
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}
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}
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CRollingBloomFilter::CRollingBloomFilter(unsigned int nElements, double fpRate) :
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CRollingBloomFilter::CRollingBloomFilter(unsigned int nElements, double fpRate)
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b1(nElements * 2, fpRate, 0), b2(nElements * 2, fpRate, 0)
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{
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{
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// Implemented using two bloom filters of 2 * nElements each.
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double logFpRate = log(fpRate);
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// We fill them up, and clear them, staggered, every nElements
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/* The optimal number of hash functions is log(fpRate) / log(0.5), but
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// inserted, so at least one always contains the last nElements
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* restrict it to the range 1-50. */
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// inserted.
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nHashFuncs = std::max(1, std::min((int)round(logFpRate / log(0.5)), 50));
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nInsertions = 0;
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/* In this rolling bloom filter, we'll store between 2 and 3 generations of nElements / 2 entries. */
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nBloomSize = nElements * 2;
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nEntriesPerGeneration = (nElements + 1) / 2;
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uint32_t nMaxElements = nEntriesPerGeneration * 3;
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/* The maximum fpRate = pow(1.0 - exp(-nHashFuncs * nMaxElements / nFilterBits), nHashFuncs)
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* => pow(fpRate, 1.0 / nHashFuncs) = 1.0 - exp(-nHashFuncs * nMaxElements / nFilterBits)
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* => 1.0 - pow(fpRate, 1.0 / nHashFuncs) = exp(-nHashFuncs * nMaxElements / nFilterBits)
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* => log(1.0 - pow(fpRate, 1.0 / nHashFuncs)) = -nHashFuncs * nMaxElements / nFilterBits
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* => nFilterBits = -nHashFuncs * nMaxElements / log(1.0 - pow(fpRate, 1.0 / nHashFuncs))
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* => nFilterBits = -nHashFuncs * nMaxElements / log(1.0 - exp(logFpRate / nHashFuncs))
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*/
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uint32_t nFilterBits = (uint32_t)ceil(-1.0 * nHashFuncs * nMaxElements / log(1.0 - exp(logFpRate / nHashFuncs)));
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data.clear();
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/* We store up to 16 'bits' per data element. */
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data.resize((nFilterBits + 15) / 16);
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reset();
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reset();
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}
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}
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/* Similar to CBloomFilter::Hash */
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inline unsigned int CRollingBloomFilter::Hash(unsigned int nHashNum, const std::vector<unsigned char>& vDataToHash) const {
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return MurmurHash3(nHashNum * 0xFBA4C795 + nTweak, vDataToHash) % (data.size() * 16);
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}
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void CRollingBloomFilter::insert(const std::vector<unsigned char>& vKey)
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void CRollingBloomFilter::insert(const std::vector<unsigned char>& vKey)
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{
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{
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if (nInsertions == 0) {
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if (nEntriesThisGeneration == nEntriesPerGeneration) {
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b1.clear();
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nEntriesThisGeneration = 0;
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} else if (nInsertions == nBloomSize / 2) {
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nGeneration++;
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b2.clear();
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if (nGeneration == 4) {
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nGeneration = 1;
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}
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/* Wipe old entries that used this generation number. */
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for (uint32_t p = 0; p < data.size() * 16; p++) {
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if (get(p) == nGeneration) {
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put(p, 0);
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}
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}
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}
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}
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b1.insert(vKey);
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nEntriesThisGeneration++;
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b2.insert(vKey);
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if (++nInsertions == nBloomSize) {
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for (int n = 0; n < nHashFuncs; n++) {
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nInsertions = 0;
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uint32_t h = Hash(n, vKey);
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put(h, nGeneration);
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}
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}
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}
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}
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@ -251,10 +275,13 @@ void CRollingBloomFilter::insert(const uint256& hash)
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bool CRollingBloomFilter::contains(const std::vector<unsigned char>& vKey) const
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bool CRollingBloomFilter::contains(const std::vector<unsigned char>& vKey) const
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{
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{
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if (nInsertions < nBloomSize / 2) {
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for (int n = 0; n < nHashFuncs; n++) {
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return b2.contains(vKey);
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uint32_t h = Hash(n, vKey);
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if (get(h) == 0) {
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return false;
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}
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}
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}
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return b1.contains(vKey);
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return true;
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}
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}
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bool CRollingBloomFilter::contains(const uint256& hash) const
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bool CRollingBloomFilter::contains(const uint256& hash) const
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@ -265,8 +292,10 @@ bool CRollingBloomFilter::contains(const uint256& hash) const
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void CRollingBloomFilter::reset()
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void CRollingBloomFilter::reset()
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{
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{
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unsigned int nNewTweak = GetRand(std::numeric_limits<unsigned int>::max());
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nTweak = GetRand(std::numeric_limits<unsigned int>::max());
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b1.reset(nNewTweak);
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nEntriesThisGeneration = 0;
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b2.reset(nNewTweak);
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nGeneration = 1;
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nInsertions = 0;
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for (std::vector<uint32_t>::iterator it = data.begin(); it != data.end(); it++) {
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*it = 0;
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}
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}
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}
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26
src/bloom.h
26
src/bloom.h
@ -110,8 +110,11 @@ public:
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* reset() is provided, which also changes nTweak to decrease the impact of
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* reset() is provided, which also changes nTweak to decrease the impact of
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* false-positives.
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* false-positives.
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*
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*
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* contains(item) will always return true if item was one of the last N things
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* contains(item) will always return true if item was one of the last N to 1.5*N
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* insert()'ed ... but may also return true for items that were not inserted.
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* insert()'ed ... but may also return true for items that were not inserted.
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*
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* It needs around 1.8 bytes per element per factor 0.1 of false positive rate.
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* (More accurately: 3/(log(256)*log(2)) * log(1/fpRate) * nElements bytes)
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*/
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*/
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class CRollingBloomFilter
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class CRollingBloomFilter
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{
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{
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@ -129,10 +132,23 @@ public:
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void reset();
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void reset();
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private:
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private:
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unsigned int nBloomSize;
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int nEntriesPerGeneration;
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unsigned int nInsertions;
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int nEntriesThisGeneration;
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CBloomFilter b1, b2;
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int nGeneration;
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std::vector<uint32_t> data;
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unsigned int nTweak;
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int nHashFuncs;
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unsigned int Hash(unsigned int nHashNum, const std::vector<unsigned char>& vDataToHash) const;
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inline int get(uint32_t position) const {
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return (data[(position >> 4) % data.size()] >> (2 * (position & 0xF))) & 0x3;
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}
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inline void put(uint32_t position, uint32_t val) {
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uint32_t& cell = data[(position >> 4) % data.size()];
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cell = (cell & ~(((uint32_t)3) << (2 * (position & 0xF)))) | (val << (2 * (position & 0xF)));
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}
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};
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};
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#endif // BITCOIN_BLOOM_H
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#endif // BITCOIN_BLOOM_H
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@ -88,7 +88,7 @@ namespace {
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* million to make it highly unlikely for users to have issues with this
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* million to make it highly unlikely for users to have issues with this
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* filter.
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* filter.
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*
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*
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* Memory used: 1.7MB
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* Memory used: 1.3MB
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*/
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*/
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boost::scoped_ptr<CRollingBloomFilter> recentRejects;
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boost::scoped_ptr<CRollingBloomFilter> recentRejects;
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uint256 hashRecentRejectsChainTip;
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uint256 hashRecentRejectsChainTip;
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