mirror of
https://gitlab.com/pulsechaincom/go-pulse.git
synced 2024-12-22 11:31:02 +00:00
643 lines
20 KiB
Go
643 lines
20 KiB
Go
// Copyright 2017 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package bloombits
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import (
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"bytes"
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"context"
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"errors"
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"math"
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"sort"
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"sync"
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"sync/atomic"
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"time"
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"github.com/ethereum/go-ethereum/common/bitutil"
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"github.com/ethereum/go-ethereum/crypto"
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)
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// bloomIndexes represents the bit indexes inside the bloom filter that belong
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// to some key.
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type bloomIndexes [3]uint
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// calcBloomIndexes returns the bloom filter bit indexes belonging to the given key.
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func calcBloomIndexes(b []byte) bloomIndexes {
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b = crypto.Keccak256(b)
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var idxs bloomIndexes
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for i := 0; i < len(idxs); i++ {
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idxs[i] = (uint(b[2*i])<<8)&2047 + uint(b[2*i+1])
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}
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return idxs
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}
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// partialMatches with a non-nil vector represents a section in which some sub-
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// matchers have already found potential matches. Subsequent sub-matchers will
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// binary AND their matches with this vector. If vector is nil, it represents a
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// section to be processed by the first sub-matcher.
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type partialMatches struct {
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section uint64
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bitset []byte
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}
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// Retrieval represents a request for retrieval task assignments for a given
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// bit with the given number of fetch elements, or a response for such a request.
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// It can also have the actual results set to be used as a delivery data struct.
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//
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// The contest and error fields are used by the light client to terminate matching
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// early if an error is encountered on some path of the pipeline.
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type Retrieval struct {
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Bit uint
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Sections []uint64
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Bitsets [][]byte
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Context context.Context
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Error error
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}
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// Matcher is a pipelined system of schedulers and logic matchers which perform
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// binary AND/OR operations on the bit-streams, creating a stream of potential
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// blocks to inspect for data content.
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type Matcher struct {
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sectionSize uint64 // Size of the data batches to filter on
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filters [][]bloomIndexes // Filter the system is matching for
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schedulers map[uint]*scheduler // Retrieval schedulers for loading bloom bits
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retrievers chan chan uint // Retriever processes waiting for bit allocations
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counters chan chan uint // Retriever processes waiting for task count reports
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retrievals chan chan *Retrieval // Retriever processes waiting for task allocations
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deliveries chan *Retrieval // Retriever processes waiting for task response deliveries
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running atomic.Bool // Atomic flag whether a session is live or not
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}
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// NewMatcher creates a new pipeline for retrieving bloom bit streams and doing
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// address and topic filtering on them. Setting a filter component to `nil` is
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// allowed and will result in that filter rule being skipped (OR 0x11...1).
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func NewMatcher(sectionSize uint64, filters [][][]byte) *Matcher {
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// Create the matcher instance
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m := &Matcher{
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sectionSize: sectionSize,
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schedulers: make(map[uint]*scheduler),
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retrievers: make(chan chan uint),
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counters: make(chan chan uint),
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retrievals: make(chan chan *Retrieval),
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deliveries: make(chan *Retrieval),
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}
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// Calculate the bloom bit indexes for the groups we're interested in
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m.filters = nil
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for _, filter := range filters {
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// Gather the bit indexes of the filter rule, special casing the nil filter
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if len(filter) == 0 {
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continue
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}
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bloomBits := make([]bloomIndexes, len(filter))
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for i, clause := range filter {
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if clause == nil {
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bloomBits = nil
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break
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}
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bloomBits[i] = calcBloomIndexes(clause)
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}
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// Accumulate the filter rules if no nil rule was within
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if bloomBits != nil {
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m.filters = append(m.filters, bloomBits)
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}
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}
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// For every bit, create a scheduler to load/download the bit vectors
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for _, bloomIndexLists := range m.filters {
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for _, bloomIndexList := range bloomIndexLists {
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for _, bloomIndex := range bloomIndexList {
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m.addScheduler(bloomIndex)
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}
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}
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}
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return m
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}
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// addScheduler adds a bit stream retrieval scheduler for the given bit index if
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// it has not existed before. If the bit is already selected for filtering, the
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// existing scheduler can be used.
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func (m *Matcher) addScheduler(idx uint) {
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if _, ok := m.schedulers[idx]; ok {
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return
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}
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m.schedulers[idx] = newScheduler(idx)
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}
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// Start starts the matching process and returns a stream of bloom matches in
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// a given range of blocks. If there are no more matches in the range, the result
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// channel is closed.
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func (m *Matcher) Start(ctx context.Context, begin, end uint64, results chan uint64) (*MatcherSession, error) {
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// Make sure we're not creating concurrent sessions
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if m.running.Swap(true) {
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return nil, errors.New("matcher already running")
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}
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defer m.running.Store(false)
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// Initiate a new matching round
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session := &MatcherSession{
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matcher: m,
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quit: make(chan struct{}),
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ctx: ctx,
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}
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for _, scheduler := range m.schedulers {
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scheduler.reset()
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}
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sink := m.run(begin, end, cap(results), session)
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// Read the output from the result sink and deliver to the user
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session.pend.Add(1)
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go func() {
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defer session.pend.Done()
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defer close(results)
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for {
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select {
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case <-session.quit:
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return
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case res, ok := <-sink:
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// New match result found
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if !ok {
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return
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}
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// Calculate the first and last blocks of the section
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sectionStart := res.section * m.sectionSize
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first := sectionStart
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if begin > first {
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first = begin
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}
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last := sectionStart + m.sectionSize - 1
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if end < last {
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last = end
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}
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// Iterate over all the blocks in the section and return the matching ones
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for i := first; i <= last; i++ {
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// Skip the entire byte if no matches are found inside (and we're processing an entire byte!)
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next := res.bitset[(i-sectionStart)/8]
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if next == 0 {
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if i%8 == 0 {
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i += 7
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}
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continue
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}
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// Some bit it set, do the actual submatching
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if bit := 7 - i%8; next&(1<<bit) != 0 {
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select {
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case <-session.quit:
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return
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case results <- i:
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}
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}
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}
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}
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}
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}()
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return session, nil
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}
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// run creates a daisy-chain of sub-matchers, one for the address set and one
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// for each topic set, each sub-matcher receiving a section only if the previous
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// ones have all found a potential match in one of the blocks of the section,
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// then binary AND-ing its own matches and forwarding the result to the next one.
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//
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// The method starts feeding the section indexes into the first sub-matcher on a
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// new goroutine and returns a sink channel receiving the results.
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func (m *Matcher) run(begin, end uint64, buffer int, session *MatcherSession) chan *partialMatches {
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// Create the source channel and feed section indexes into
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source := make(chan *partialMatches, buffer)
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session.pend.Add(1)
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go func() {
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defer session.pend.Done()
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defer close(source)
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for i := begin / m.sectionSize; i <= end/m.sectionSize; i++ {
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select {
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case <-session.quit:
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return
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case source <- &partialMatches{i, bytes.Repeat([]byte{0xff}, int(m.sectionSize/8))}:
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}
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}
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}()
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// Assemble the daisy-chained filtering pipeline
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next := source
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dist := make(chan *request, buffer)
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for _, bloom := range m.filters {
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next = m.subMatch(next, dist, bloom, session)
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}
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// Start the request distribution
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session.pend.Add(1)
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go m.distributor(dist, session)
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return next
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}
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// subMatch creates a sub-matcher that filters for a set of addresses or topics, binary OR-s those matches, then
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// binary AND-s the result to the daisy-chain input (source) and forwards it to the daisy-chain output.
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// The matches of each address/topic are calculated by fetching the given sections of the three bloom bit indexes belonging to
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// that address/topic, and binary AND-ing those vectors together.
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func (m *Matcher) subMatch(source chan *partialMatches, dist chan *request, bloom []bloomIndexes, session *MatcherSession) chan *partialMatches {
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// Start the concurrent schedulers for each bit required by the bloom filter
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sectionSources := make([][3]chan uint64, len(bloom))
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sectionSinks := make([][3]chan []byte, len(bloom))
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for i, bits := range bloom {
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for j, bit := range bits {
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sectionSources[i][j] = make(chan uint64, cap(source))
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sectionSinks[i][j] = make(chan []byte, cap(source))
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m.schedulers[bit].run(sectionSources[i][j], dist, sectionSinks[i][j], session.quit, &session.pend)
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}
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}
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process := make(chan *partialMatches, cap(source)) // entries from source are forwarded here after fetches have been initiated
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results := make(chan *partialMatches, cap(source))
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session.pend.Add(2)
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go func() {
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// Tear down the goroutine and terminate all source channels
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defer session.pend.Done()
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defer close(process)
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defer func() {
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for _, bloomSources := range sectionSources {
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for _, bitSource := range bloomSources {
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close(bitSource)
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}
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}
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}()
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// Read sections from the source channel and multiplex into all bit-schedulers
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for {
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select {
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case <-session.quit:
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return
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case subres, ok := <-source:
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// New subresult from previous link
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if !ok {
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return
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}
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// Multiplex the section index to all bit-schedulers
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for _, bloomSources := range sectionSources {
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for _, bitSource := range bloomSources {
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select {
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case <-session.quit:
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return
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case bitSource <- subres.section:
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}
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}
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}
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// Notify the processor that this section will become available
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select {
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case <-session.quit:
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return
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case process <- subres:
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}
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}
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}
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}()
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go func() {
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// Tear down the goroutine and terminate the final sink channel
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defer session.pend.Done()
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defer close(results)
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// Read the source notifications and collect the delivered results
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for {
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select {
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case <-session.quit:
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return
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case subres, ok := <-process:
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// Notified of a section being retrieved
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if !ok {
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return
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}
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// Gather all the sub-results and merge them together
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var orVector []byte
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for _, bloomSinks := range sectionSinks {
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var andVector []byte
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for _, bitSink := range bloomSinks {
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var data []byte
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select {
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case <-session.quit:
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return
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case data = <-bitSink:
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}
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if andVector == nil {
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andVector = make([]byte, int(m.sectionSize/8))
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copy(andVector, data)
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} else {
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bitutil.ANDBytes(andVector, andVector, data)
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}
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}
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if orVector == nil {
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orVector = andVector
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} else {
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bitutil.ORBytes(orVector, orVector, andVector)
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}
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}
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if orVector == nil {
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orVector = make([]byte, int(m.sectionSize/8))
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}
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if subres.bitset != nil {
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bitutil.ANDBytes(orVector, orVector, subres.bitset)
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}
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if bitutil.TestBytes(orVector) {
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select {
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case <-session.quit:
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return
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case results <- &partialMatches{subres.section, orVector}:
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}
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}
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}
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}
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}()
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return results
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}
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// distributor receives requests from the schedulers and queues them into a set
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// of pending requests, which are assigned to retrievers wanting to fulfil them.
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func (m *Matcher) distributor(dist chan *request, session *MatcherSession) {
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defer session.pend.Done()
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var (
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requests = make(map[uint][]uint64) // Per-bit list of section requests, ordered by section number
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unallocs = make(map[uint]struct{}) // Bits with pending requests but not allocated to any retriever
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retrievers chan chan uint // Waiting retrievers (toggled to nil if unallocs is empty)
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allocs int // Number of active allocations to handle graceful shutdown requests
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shutdown = session.quit // Shutdown request channel, will gracefully wait for pending requests
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)
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// assign is a helper method fo try to assign a pending bit an actively
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// listening servicer, or schedule it up for later when one arrives.
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assign := func(bit uint) {
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select {
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case fetcher := <-m.retrievers:
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allocs++
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fetcher <- bit
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default:
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// No retrievers active, start listening for new ones
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retrievers = m.retrievers
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unallocs[bit] = struct{}{}
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}
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}
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for {
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select {
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case <-shutdown:
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// Shutdown requested. No more retrievers can be allocated,
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// but we still need to wait until all pending requests have returned.
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shutdown = nil
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if allocs == 0 {
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return
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}
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case req := <-dist:
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// New retrieval request arrived to be distributed to some fetcher process
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queue := requests[req.bit]
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index := sort.Search(len(queue), func(i int) bool { return queue[i] >= req.section })
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requests[req.bit] = append(queue[:index], append([]uint64{req.section}, queue[index:]...)...)
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// If it's a new bit and we have waiting fetchers, allocate to them
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if len(queue) == 0 {
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assign(req.bit)
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}
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case fetcher := <-retrievers:
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// New retriever arrived, find the lowest section-ed bit to assign
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bit, best := uint(0), uint64(math.MaxUint64)
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for idx := range unallocs {
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if requests[idx][0] < best {
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bit, best = idx, requests[idx][0]
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}
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}
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// Stop tracking this bit (and alloc notifications if no more work is available)
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delete(unallocs, bit)
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if len(unallocs) == 0 {
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retrievers = nil
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}
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allocs++
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fetcher <- bit
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case fetcher := <-m.counters:
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// New task count request arrives, return number of items
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fetcher <- uint(len(requests[<-fetcher]))
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case fetcher := <-m.retrievals:
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// New fetcher waiting for tasks to retrieve, assign
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task := <-fetcher
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if want := len(task.Sections); want >= len(requests[task.Bit]) {
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task.Sections = requests[task.Bit]
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delete(requests, task.Bit)
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} else {
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task.Sections = append(task.Sections[:0], requests[task.Bit][:want]...)
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requests[task.Bit] = append(requests[task.Bit][:0], requests[task.Bit][want:]...)
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}
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fetcher <- task
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// If anything was left unallocated, try to assign to someone else
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if len(requests[task.Bit]) > 0 {
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assign(task.Bit)
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}
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case result := <-m.deliveries:
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// New retrieval task response from fetcher, split out missing sections and
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// deliver complete ones
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var (
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sections = make([]uint64, 0, len(result.Sections))
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bitsets = make([][]byte, 0, len(result.Bitsets))
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missing = make([]uint64, 0, len(result.Sections))
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)
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for i, bitset := range result.Bitsets {
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if len(bitset) == 0 {
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missing = append(missing, result.Sections[i])
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continue
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}
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sections = append(sections, result.Sections[i])
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bitsets = append(bitsets, bitset)
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}
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m.schedulers[result.Bit].deliver(sections, bitsets)
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allocs--
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// Reschedule missing sections and allocate bit if newly available
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if len(missing) > 0 {
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queue := requests[result.Bit]
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for _, section := range missing {
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index := sort.Search(len(queue), func(i int) bool { return queue[i] >= section })
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queue = append(queue[:index], append([]uint64{section}, queue[index:]...)...)
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}
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requests[result.Bit] = queue
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if len(queue) == len(missing) {
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assign(result.Bit)
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}
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}
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// End the session when all pending deliveries have arrived.
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if shutdown == nil && allocs == 0 {
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return
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}
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}
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}
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}
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// MatcherSession is returned by a started matcher to be used as a terminator
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// for the actively running matching operation.
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type MatcherSession struct {
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matcher *Matcher
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closer sync.Once // Sync object to ensure we only ever close once
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quit chan struct{} // Quit channel to request pipeline termination
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ctx context.Context // Context used by the light client to abort filtering
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err error // Global error to track retrieval failures deep in the chain
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errLock sync.Mutex
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pend sync.WaitGroup
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}
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// Close stops the matching process and waits for all subprocesses to terminate
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// before returning. The timeout may be used for graceful shutdown, allowing the
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// currently running retrievals to complete before this time.
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func (s *MatcherSession) Close() {
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s.closer.Do(func() {
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// Signal termination and wait for all goroutines to tear down
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close(s.quit)
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s.pend.Wait()
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})
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}
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// Error returns any failure encountered during the matching session.
|
|
func (s *MatcherSession) Error() error {
|
|
s.errLock.Lock()
|
|
defer s.errLock.Unlock()
|
|
|
|
return s.err
|
|
}
|
|
|
|
// allocateRetrieval assigns a bloom bit index to a client process that can either
|
|
// immediately request and fetch the section contents assigned to this bit or wait
|
|
// a little while for more sections to be requested.
|
|
func (s *MatcherSession) allocateRetrieval() (uint, bool) {
|
|
fetcher := make(chan uint)
|
|
|
|
select {
|
|
case <-s.quit:
|
|
return 0, false
|
|
case s.matcher.retrievers <- fetcher:
|
|
bit, ok := <-fetcher
|
|
return bit, ok
|
|
}
|
|
}
|
|
|
|
// pendingSections returns the number of pending section retrievals belonging to
|
|
// the given bloom bit index.
|
|
func (s *MatcherSession) pendingSections(bit uint) int {
|
|
fetcher := make(chan uint)
|
|
|
|
select {
|
|
case <-s.quit:
|
|
return 0
|
|
case s.matcher.counters <- fetcher:
|
|
fetcher <- bit
|
|
return int(<-fetcher)
|
|
}
|
|
}
|
|
|
|
// allocateSections assigns all or part of an already allocated bit-task queue
|
|
// to the requesting process.
|
|
func (s *MatcherSession) allocateSections(bit uint, count int) []uint64 {
|
|
fetcher := make(chan *Retrieval)
|
|
|
|
select {
|
|
case <-s.quit:
|
|
return nil
|
|
case s.matcher.retrievals <- fetcher:
|
|
task := &Retrieval{
|
|
Bit: bit,
|
|
Sections: make([]uint64, count),
|
|
}
|
|
fetcher <- task
|
|
return (<-fetcher).Sections
|
|
}
|
|
}
|
|
|
|
// deliverSections delivers a batch of section bit-vectors for a specific bloom
|
|
// bit index to be injected into the processing pipeline.
|
|
func (s *MatcherSession) deliverSections(bit uint, sections []uint64, bitsets [][]byte) {
|
|
s.matcher.deliveries <- &Retrieval{Bit: bit, Sections: sections, Bitsets: bitsets}
|
|
}
|
|
|
|
// Multiplex polls the matcher session for retrieval tasks and multiplexes it into
|
|
// the requested retrieval queue to be serviced together with other sessions.
|
|
//
|
|
// This method will block for the lifetime of the session. Even after termination
|
|
// of the session, any request in-flight need to be responded to! Empty responses
|
|
// are fine though in that case.
|
|
func (s *MatcherSession) Multiplex(batch int, wait time.Duration, mux chan chan *Retrieval) {
|
|
for {
|
|
// Allocate a new bloom bit index to retrieve data for, stopping when done
|
|
bit, ok := s.allocateRetrieval()
|
|
if !ok {
|
|
return
|
|
}
|
|
// Bit allocated, throttle a bit if we're below our batch limit
|
|
if s.pendingSections(bit) < batch {
|
|
select {
|
|
case <-s.quit:
|
|
// Session terminating, we can't meaningfully service, abort
|
|
s.allocateSections(bit, 0)
|
|
s.deliverSections(bit, []uint64{}, [][]byte{})
|
|
return
|
|
|
|
case <-time.After(wait):
|
|
// Throttling up, fetch whatever is available
|
|
}
|
|
}
|
|
// Allocate as much as we can handle and request servicing
|
|
sections := s.allocateSections(bit, batch)
|
|
request := make(chan *Retrieval)
|
|
|
|
select {
|
|
case <-s.quit:
|
|
// Session terminating, we can't meaningfully service, abort
|
|
s.deliverSections(bit, sections, make([][]byte, len(sections)))
|
|
return
|
|
|
|
case mux <- request:
|
|
// Retrieval accepted, something must arrive before we're aborting
|
|
request <- &Retrieval{Bit: bit, Sections: sections, Context: s.ctx}
|
|
|
|
result := <-request
|
|
if result.Error != nil {
|
|
s.errLock.Lock()
|
|
s.err = result.Error
|
|
s.errLock.Unlock()
|
|
s.Close()
|
|
}
|
|
s.deliverSections(result.Bit, result.Sections, result.Bitsets)
|
|
}
|
|
}
|
|
}
|