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bitcoin#14172: Refactor and add tests for BlockFilter construction
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@ -17,7 +17,7 @@ static void ConstructGCSFilter(benchmark::Bench& bench)
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uint64_t siphash_k0 = 0;
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bench.batch(elements.size()).unit("elem").run([&] {
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GCSFilter filter(siphash_k0, 0, 20, 1 << 20, elements);
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GCSFilter filter({siphash_k0, 0, 20, 1 << 20}, elements);
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siphash_k0++;
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});
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}
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@ -31,7 +31,7 @@ static void MatchGCSFilter(benchmark::Bench& bench)
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element[1] = static_cast<unsigned char>(i >> 8);
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elements.insert(std::move(element));
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}
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GCSFilter filter(0, 0, 20, 1 << 20, elements);
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GCSFilter filter({0, 0, 20, 1 << 20}, elements);
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bench.unit("elem").run([&] {
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filter.Match(GCSFilter::Element());
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@ -79,7 +79,7 @@ static uint64_t MapIntoRange(uint64_t x, uint64_t n)
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uint64_t GCSFilter::HashToRange(const Element& element) const
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{
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uint64_t hash = CSipHasher(m_siphash_k0, m_siphash_k1)
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uint64_t hash = CSipHasher(m_params.m_siphash_k0, m_params.m_siphash_k1)
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.Write(element.data(), element.size())
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.Finalize();
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return MapIntoRange(hash, m_F);
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@ -96,16 +96,13 @@ std::vector<uint64_t> GCSFilter::BuildHashedSet(const ElementSet& elements) cons
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return hashed_elements;
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}
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GCSFilter::GCSFilter(uint64_t siphash_k0, uint64_t siphash_k1, uint8_t P, uint32_t M)
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: m_siphash_k0(siphash_k0), m_siphash_k1(siphash_k1), m_P(P), m_M(M), m_N(0), m_F(0)
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GCSFilter::GCSFilter(const Params& params)
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: m_params(params), m_N(0), m_F(0), m_encoded{0}
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{}
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GCSFilter::GCSFilter(uint64_t siphash_k0, uint64_t siphash_k1, uint8_t P, uint32_t M,
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std::vector<unsigned char> encoded_filter)
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: GCSFilter(siphash_k0, siphash_k1, P, M)
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GCSFilter::GCSFilter(const Params& params, std::vector<unsigned char> encoded_filter)
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: m_params(params), m_encoded(std::move(encoded_filter))
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{
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m_encoded = std::move(encoded_filter);
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VectorReader stream(GCS_SER_TYPE, GCS_SER_VERSION, m_encoded, 0);
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uint64_t N = ReadCompactSize(stream);
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@ -113,29 +110,28 @@ GCSFilter::GCSFilter(uint64_t siphash_k0, uint64_t siphash_k1, uint8_t P, uint32
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if (m_N != N) {
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throw std::ios_base::failure("N must be <2^32");
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}
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m_F = static_cast<uint64_t>(m_N) * static_cast<uint64_t>(m_M);
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m_F = static_cast<uint64_t>(m_N) * static_cast<uint64_t>(m_params.m_M);
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// Verify that the encoded filter contains exactly N elements. If it has too much or too little
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// data, a std::ios_base::failure exception will be raised.
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BitStreamReader<VectorReader> bitreader(stream);
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for (uint64_t i = 0; i < m_N; ++i) {
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GolombRiceDecode(bitreader, m_P);
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GolombRiceDecode(bitreader, m_params.m_P);
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}
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if (!stream.empty()) {
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throw std::ios_base::failure("encoded_filter contains excess data");
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}
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}
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GCSFilter::GCSFilter(uint64_t siphash_k0, uint64_t siphash_k1, uint8_t P, uint32_t M,
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const ElementSet& elements)
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: GCSFilter(siphash_k0, siphash_k1, P, M)
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GCSFilter::GCSFilter(const Params& params, const ElementSet& elements)
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: m_params(params)
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{
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size_t N = elements.size();
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m_N = static_cast<uint32_t>(N);
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if (m_N != N) {
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throw std::invalid_argument("N must be <2^32");
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}
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m_F = static_cast<uint64_t>(m_N) * static_cast<uint64_t>(m_M);
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m_F = static_cast<uint64_t>(m_N) * static_cast<uint64_t>(m_params.m_M);
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CVectorWriter stream(GCS_SER_TYPE, GCS_SER_VERSION, m_encoded, 0);
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@ -150,7 +146,7 @@ GCSFilter::GCSFilter(uint64_t siphash_k0, uint64_t siphash_k1, uint8_t P, uint32
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uint64_t last_value = 0;
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for (uint64_t value : BuildHashedSet(elements)) {
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uint64_t delta = value - last_value;
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GolombRiceEncode(bitwriter, m_P, delta);
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GolombRiceEncode(bitwriter, m_params.m_P, delta);
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last_value = value;
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}
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@ -170,7 +166,7 @@ bool GCSFilter::MatchInternal(const uint64_t* element_hashes, size_t size) const
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uint64_t value = 0;
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size_t hashes_index = 0;
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for (uint32_t i = 0; i < m_N; ++i) {
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uint64_t delta = GolombRiceDecode(bitreader, m_P);
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uint64_t delta = GolombRiceDecode(bitreader, m_params.m_P);
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value += delta;
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while (true) {
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@ -225,19 +221,39 @@ static GCSFilter::ElementSet BasicFilterElements(const CBlock& block,
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return elements;
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}
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BlockFilter::BlockFilter(BlockFilterType filter_type, const uint256& block_hash,
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std::vector<unsigned char> filter)
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: m_filter_type(filter_type), m_block_hash(block_hash)
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{
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GCSFilter::Params params;
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if (!BuildParams(params)) {
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throw std::invalid_argument("unknown filter_type");
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}
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m_filter = GCSFilter(params, std::move(filter));
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}
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BlockFilter::BlockFilter(BlockFilterType filter_type, const CBlock& block, const CBlockUndo& block_undo)
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: m_filter_type(filter_type), m_block_hash(block.GetHash())
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{
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switch (m_filter_type) {
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case BlockFilterType::BASIC_FILTER:
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m_filter = GCSFilter(m_block_hash.GetUint64(0), m_block_hash.GetUint64(1),
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BASIC_FILTER_P, BASIC_FILTER_M,
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BasicFilterElements(block, block_undo));
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break;
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default:
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GCSFilter::Params params;
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if (!BuildParams(params)) {
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throw std::invalid_argument("unknown filter_type");
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}
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m_filter = GCSFilter(params, BasicFilterElements(block, block_undo));
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}
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bool BlockFilter::BuildParams(GCSFilter::Params& params) const
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{
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switch (m_filter_type) {
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case BlockFilterType::BASIC_FILTER:
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params.m_siphash_k0 = m_block_hash.GetUint64(0);
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params.m_siphash_k1 = m_block_hash.GetUint64(1);
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params.m_P = BASIC_FILTER_P;
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params.m_M = BASIC_FILTER_M;
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return true;
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}
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return false;
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}
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uint256 BlockFilter::GetHash() const
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@ -25,11 +25,20 @@ public:
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typedef std::vector<unsigned char> Element;
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typedef std::unordered_set<Element, ByteVectorHash> ElementSet;
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struct Params
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{
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uint64_t m_siphash_k0;
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uint64_t m_siphash_k1;
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uint8_t m_P; //!< Golomb-Rice coding parameter
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uint32_t m_M; //!< Inverse false positive rate
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Params(uint64_t siphash_k0 = 0, uint64_t siphash_k1 = 0, uint8_t P = 0, uint32_t M = 1)
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: m_siphash_k0(siphash_k0), m_siphash_k1(siphash_k1), m_P(P), m_M(M)
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{}
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};
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private:
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uint64_t m_siphash_k0;
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uint64_t m_siphash_k1;
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uint8_t m_P; //!< Golomb-Rice coding parameter
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uint32_t m_M; //!< Inverse false positive rate
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Params m_params;
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uint32_t m_N; //!< Number of elements in the filter
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uint64_t m_F; //!< Range of element hashes, F = N * M
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std::vector<unsigned char> m_encoded;
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@ -45,19 +54,16 @@ private:
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public:
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/** Constructs an empty filter. */
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GCSFilter(uint64_t siphash_k0 = 0, uint64_t siphash_k1 = 0, uint8_t P = 0, uint32_t M = 0);
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explicit GCSFilter(const Params& params = Params());
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/** Reconstructs an already-created filter from an encoding. */
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GCSFilter(uint64_t siphash_k0, uint64_t siphash_k1, uint8_t P, uint32_t M,
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std::vector<unsigned char> encoded_filter);
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GCSFilter(const Params& params, std::vector<unsigned char> encoded_filter);
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/** Builds a new filter from the params and set of elements. */
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GCSFilter(uint64_t siphash_k0, uint64_t siphash_k1, uint8_t P, uint32_t M,
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const ElementSet& elements);
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GCSFilter(const Params& params, const ElementSet& elements);
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uint8_t GetP() const { return m_P; }
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uint32_t GetN() const { return m_N; }
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uint32_t GetM() const { return m_M; }
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const Params& GetParams() const { return m_params; }
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const std::vector<unsigned char>& GetEncoded() const { return m_encoded; }
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/**
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@ -93,13 +99,21 @@ private:
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uint256 m_block_hash;
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GCSFilter m_filter;
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bool BuildParams(GCSFilter::Params& params) const;
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public:
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// Construct a new BlockFilter of the specified type from a block.
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BlockFilter() = default;
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//! Reconstruct a BlockFilter from parts.
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BlockFilter(BlockFilterType filter_type, const uint256& block_hash,
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std::vector<unsigned char> filter);
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//! Construct a new BlockFilter of the specified type from a block.
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BlockFilter(BlockFilterType filter_type, const CBlock& block, const CBlockUndo& block_undo);
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BlockFilterType GetFilterType() const { return m_filter_type; }
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const uint256& GetBlockHash() const { return m_block_hash; }
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const GCSFilter& GetFilter() const { return m_filter; }
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const std::vector<unsigned char>& GetEncodedFilter() const
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@ -107,10 +121,10 @@ public:
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return m_filter.GetEncoded();
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}
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// Compute the filter hash.
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//! Compute the filter hash.
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uint256 GetHash() const;
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// Compute the filter header given the previous one.
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//! Compute the filter header given the previous one.
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uint256 ComputeHeader(const uint256& prev_header) const;
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template <typename Stream>
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@ -131,15 +145,11 @@ public:
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m_filter_type = static_cast<BlockFilterType>(filter_type);
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switch (m_filter_type) {
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case BlockFilterType::BASIC_FILTER:
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m_filter = GCSFilter(m_block_hash.GetUint64(0), m_block_hash.GetUint64(1),
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BASIC_FILTER_P, BASIC_FILTER_M, std::move(encoded_filter));
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break;
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default:
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GCSFilter::Params params;
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if (!BuildParams(params)) {
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throw std::ios_base::failure("unknown filter_type");
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}
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m_filter = GCSFilter(params, std::move(encoded_filter));
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}
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};
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@ -29,7 +29,7 @@ BOOST_AUTO_TEST_CASE(gcsfilter_test)
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excluded_elements.insert(std::move(element2));
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}
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GCSFilter filter(0, 0, 10, 1 << 10, included_elements);
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GCSFilter filter({0, 0, 10, 1 << 10}, included_elements);
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for (const auto& element : included_elements) {
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BOOST_CHECK(filter.Match(element));
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@ -39,6 +39,19 @@ BOOST_AUTO_TEST_CASE(gcsfilter_test)
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}
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}
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BOOST_AUTO_TEST_CASE(gcsfilter_default_constructor)
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{
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GCSFilter filter;
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BOOST_CHECK_EQUAL(filter.GetN(), 0);
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BOOST_CHECK_EQUAL(filter.GetEncoded().size(), 1);
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const GCSFilter::Params& params = filter.GetParams();
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BOOST_CHECK_EQUAL(params.m_siphash_k0, 0);
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BOOST_CHECK_EQUAL(params.m_siphash_k1, 0);
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BOOST_CHECK_EQUAL(params.m_P, 0);
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BOOST_CHECK_EQUAL(params.m_M, 1);
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}
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BOOST_AUTO_TEST_CASE(blockfilter_basic_test)
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{
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CScript included_scripts[5], excluded_scripts[3];
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@ -88,6 +101,17 @@ BOOST_AUTO_TEST_CASE(blockfilter_basic_test)
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for (const CScript& script : excluded_scripts) {
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BOOST_CHECK(!filter.Match(GCSFilter::Element(script.begin(), script.end())));
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}
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// Test serialization/unserialization.
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BlockFilter block_filter2;
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CDataStream stream(SER_NETWORK, PROTOCOL_VERSION);
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stream << block_filter;
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stream >> block_filter2;
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BOOST_CHECK_EQUAL(block_filter.GetFilterType(), block_filter2.GetFilterType());
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BOOST_CHECK_EQUAL(block_filter.GetBlockHash(), block_filter2.GetBlockHash());
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BOOST_CHECK(block_filter.GetEncodedFilter() == block_filter2.GetEncodedFilter());
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}
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BOOST_AUTO_TEST_CASE(blockfilters_json_test)
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