mirror of
https://gitlab.com/pulsechaincom/go-pulse.git
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565 lines
18 KiB
Go
565 lines
18 KiB
Go
// Copyright 2015 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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// Contains the active peer-set of the downloader, maintaining both failures
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// as well as reputation metrics to prioritize the block retrievals.
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package downloader
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import (
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"errors"
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"fmt"
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"math"
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"math/big"
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"sort"
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"strings"
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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"
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)
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const (
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maxLackingHashes = 4096 // Maximum number of entries allowed on the list or lacking items
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measurementImpact = 0.1 // The impact a single measurement has on a peer's final throughput value.
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)
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// Head hash and total difficulty retriever for
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type currentHeadRetrievalFn func() (common.Hash, *big.Int)
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// Block header and body fetchers belonging to eth/62 and above
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type relativeHeaderFetcherFn func(common.Hash, int, int, bool) error
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type absoluteHeaderFetcherFn func(uint64, int, int, bool) error
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type blockBodyFetcherFn func([]common.Hash) error
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type receiptFetcherFn func([]common.Hash) error
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type stateFetcherFn func([]common.Hash) error
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var (
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errAlreadyFetching = errors.New("already fetching blocks from peer")
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errAlreadyRegistered = errors.New("peer is already registered")
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errNotRegistered = errors.New("peer is not registered")
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)
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// peer represents an active peer from which hashes and blocks are retrieved.
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type peer struct {
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id string // Unique identifier of the peer
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headerIdle int32 // Current header activity state of the peer (idle = 0, active = 1)
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blockIdle int32 // Current block activity state of the peer (idle = 0, active = 1)
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receiptIdle int32 // Current receipt activity state of the peer (idle = 0, active = 1)
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stateIdle int32 // Current node data activity state of the peer (idle = 0, active = 1)
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headerThroughput float64 // Number of headers measured to be retrievable per second
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blockThroughput float64 // Number of blocks (bodies) measured to be retrievable per second
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receiptThroughput float64 // Number of receipts measured to be retrievable per second
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stateThroughput float64 // Number of node data pieces measured to be retrievable per second
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rtt time.Duration // Request round trip time to track responsiveness (QoS)
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headerStarted time.Time // Time instance when the last header fetch was started
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blockStarted time.Time // Time instance when the last block (body) fetch was started
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receiptStarted time.Time // Time instance when the last receipt fetch was started
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stateStarted time.Time // Time instance when the last node data fetch was started
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lacking map[common.Hash]struct{} // Set of hashes not to request (didn't have previously)
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currentHead currentHeadRetrievalFn // Method to fetch the currently known head of the peer
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getRelHeaders relativeHeaderFetcherFn // [eth/62] Method to retrieve a batch of headers from an origin hash
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getAbsHeaders absoluteHeaderFetcherFn // [eth/62] Method to retrieve a batch of headers from an absolute position
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getBlockBodies blockBodyFetcherFn // [eth/62] Method to retrieve a batch of block bodies
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getReceipts receiptFetcherFn // [eth/63] Method to retrieve a batch of block transaction receipts
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getNodeData stateFetcherFn // [eth/63] Method to retrieve a batch of state trie data
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version int // Eth protocol version number to switch strategies
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lock sync.RWMutex
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}
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// newPeer create a new downloader peer, with specific hash and block retrieval
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// mechanisms.
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func newPeer(id string, version int, currentHead currentHeadRetrievalFn,
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getRelHeaders relativeHeaderFetcherFn, getAbsHeaders absoluteHeaderFetcherFn, getBlockBodies blockBodyFetcherFn,
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getReceipts receiptFetcherFn, getNodeData stateFetcherFn) *peer {
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return &peer{
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id: id,
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lacking: make(map[common.Hash]struct{}),
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currentHead: currentHead,
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getRelHeaders: getRelHeaders,
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getAbsHeaders: getAbsHeaders,
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getBlockBodies: getBlockBodies,
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getReceipts: getReceipts,
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getNodeData: getNodeData,
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version: version,
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}
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}
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// Reset clears the internal state of a peer entity.
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func (p *peer) Reset() {
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p.lock.Lock()
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defer p.lock.Unlock()
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atomic.StoreInt32(&p.headerIdle, 0)
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atomic.StoreInt32(&p.blockIdle, 0)
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atomic.StoreInt32(&p.receiptIdle, 0)
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atomic.StoreInt32(&p.stateIdle, 0)
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p.headerThroughput = 0
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p.blockThroughput = 0
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p.receiptThroughput = 0
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p.stateThroughput = 0
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p.lacking = make(map[common.Hash]struct{})
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}
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// FetchHeaders sends a header retrieval request to the remote peer.
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func (p *peer) FetchHeaders(from uint64, count int) error {
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// Sanity check the protocol version
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if p.version < 62 {
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panic(fmt.Sprintf("header fetch [eth/62+] requested on eth/%d", p.version))
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}
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// Short circuit if the peer is already fetching
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if !atomic.CompareAndSwapInt32(&p.headerIdle, 0, 1) {
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return errAlreadyFetching
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}
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p.headerStarted = time.Now()
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// Issue the header retrieval request (absolut upwards without gaps)
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go p.getAbsHeaders(from, count, 0, false)
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return nil
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}
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// FetchBodies sends a block body retrieval request to the remote peer.
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func (p *peer) FetchBodies(request *fetchRequest) error {
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// Sanity check the protocol version
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if p.version < 62 {
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panic(fmt.Sprintf("body fetch [eth/62+] requested on eth/%d", p.version))
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}
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// Short circuit if the peer is already fetching
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if !atomic.CompareAndSwapInt32(&p.blockIdle, 0, 1) {
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return errAlreadyFetching
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}
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p.blockStarted = time.Now()
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// Convert the header set to a retrievable slice
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hashes := make([]common.Hash, 0, len(request.Headers))
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for _, header := range request.Headers {
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hashes = append(hashes, header.Hash())
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}
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go p.getBlockBodies(hashes)
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return nil
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}
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// FetchReceipts sends a receipt retrieval request to the remote peer.
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func (p *peer) FetchReceipts(request *fetchRequest) error {
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// Sanity check the protocol version
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if p.version < 63 {
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panic(fmt.Sprintf("body fetch [eth/63+] requested on eth/%d", p.version))
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}
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// Short circuit if the peer is already fetching
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if !atomic.CompareAndSwapInt32(&p.receiptIdle, 0, 1) {
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return errAlreadyFetching
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}
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p.receiptStarted = time.Now()
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// Convert the header set to a retrievable slice
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hashes := make([]common.Hash, 0, len(request.Headers))
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for _, header := range request.Headers {
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hashes = append(hashes, header.Hash())
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}
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go p.getReceipts(hashes)
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return nil
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}
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// FetchNodeData sends a node state data retrieval request to the remote peer.
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func (p *peer) FetchNodeData(request *fetchRequest) error {
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// Sanity check the protocol version
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if p.version < 63 {
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panic(fmt.Sprintf("node data fetch [eth/63+] requested on eth/%d", p.version))
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}
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// Short circuit if the peer is already fetching
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if !atomic.CompareAndSwapInt32(&p.stateIdle, 0, 1) {
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return errAlreadyFetching
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}
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p.stateStarted = time.Now()
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// Convert the hash set to a retrievable slice
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hashes := make([]common.Hash, 0, len(request.Hashes))
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for hash := range request.Hashes {
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hashes = append(hashes, hash)
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}
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go p.getNodeData(hashes)
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return nil
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}
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// SetHeadersIdle sets the peer to idle, allowing it to execute new header retrieval
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// requests. Its estimated header retrieval throughput is updated with that measured
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// just now.
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func (p *peer) SetHeadersIdle(delivered int) {
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p.setIdle(p.headerStarted, delivered, &p.headerThroughput, &p.headerIdle)
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}
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// SetBlocksIdle sets the peer to idle, allowing it to execute new block retrieval
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// requests. Its estimated block retrieval throughput is updated with that measured
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// just now.
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func (p *peer) SetBlocksIdle(delivered int) {
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p.setIdle(p.blockStarted, delivered, &p.blockThroughput, &p.blockIdle)
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}
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// SetBodiesIdle sets the peer to idle, allowing it to execute block body retrieval
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// requests. Its estimated body retrieval throughput is updated with that measured
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// just now.
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func (p *peer) SetBodiesIdle(delivered int) {
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p.setIdle(p.blockStarted, delivered, &p.blockThroughput, &p.blockIdle)
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}
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// SetReceiptsIdle sets the peer to idle, allowing it to execute new receipt
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// retrieval requests. Its estimated receipt retrieval throughput is updated
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// with that measured just now.
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func (p *peer) SetReceiptsIdle(delivered int) {
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p.setIdle(p.receiptStarted, delivered, &p.receiptThroughput, &p.receiptIdle)
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}
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// SetNodeDataIdle sets the peer to idle, allowing it to execute new state trie
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// data retrieval requests. Its estimated state retrieval throughput is updated
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// with that measured just now.
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func (p *peer) SetNodeDataIdle(delivered int) {
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p.setIdle(p.stateStarted, delivered, &p.stateThroughput, &p.stateIdle)
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}
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// setIdle sets the peer to idle, allowing it to execute new retrieval requests.
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// Its estimated retrieval throughput is updated with that measured just now.
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func (p *peer) setIdle(started time.Time, delivered int, throughput *float64, idle *int32) {
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// Irrelevant of the scaling, make sure the peer ends up idle
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defer atomic.StoreInt32(idle, 0)
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p.lock.Lock()
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defer p.lock.Unlock()
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// If nothing was delivered (hard timeout / unavailable data), reduce throughput to minimum
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if delivered == 0 {
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*throughput = 0
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return
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}
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// Otherwise update the throughput with a new measurement
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elapsed := time.Since(started) + 1 // +1 (ns) to ensure non-zero divisor
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measured := float64(delivered) / (float64(elapsed) / float64(time.Second))
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*throughput = (1-measurementImpact)*(*throughput) + measurementImpact*measured
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p.rtt = time.Duration((1-measurementImpact)*float64(p.rtt) + measurementImpact*float64(elapsed))
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}
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// HeaderCapacity retrieves the peers header download allowance based on its
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// previously discovered throughput.
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func (p *peer) HeaderCapacity(targetRTT time.Duration) int {
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p.lock.RLock()
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defer p.lock.RUnlock()
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return int(math.Min(1+math.Max(1, p.headerThroughput*float64(targetRTT)/float64(time.Second)), float64(MaxHeaderFetch)))
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}
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// BlockCapacity retrieves the peers block download allowance based on its
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// previously discovered throughput.
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func (p *peer) BlockCapacity(targetRTT time.Duration) int {
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p.lock.RLock()
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defer p.lock.RUnlock()
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return int(math.Min(1+math.Max(1, p.blockThroughput*float64(targetRTT)/float64(time.Second)), float64(MaxBlockFetch)))
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}
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// ReceiptCapacity retrieves the peers receipt download allowance based on its
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// previously discovered throughput.
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func (p *peer) ReceiptCapacity(targetRTT time.Duration) int {
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p.lock.RLock()
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defer p.lock.RUnlock()
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return int(math.Min(1+math.Max(1, p.receiptThroughput*float64(targetRTT)/float64(time.Second)), float64(MaxReceiptFetch)))
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}
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// NodeDataCapacity retrieves the peers state download allowance based on its
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// previously discovered throughput.
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func (p *peer) NodeDataCapacity(targetRTT time.Duration) int {
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p.lock.RLock()
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defer p.lock.RUnlock()
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return int(math.Min(1+math.Max(1, p.stateThroughput*float64(targetRTT)/float64(time.Second)), float64(MaxStateFetch)))
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}
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// MarkLacking appends a new entity to the set of items (blocks, receipts, states)
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// that a peer is known not to have (i.e. have been requested before). If the
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// set reaches its maximum allowed capacity, items are randomly dropped off.
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func (p *peer) MarkLacking(hash common.Hash) {
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p.lock.Lock()
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defer p.lock.Unlock()
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for len(p.lacking) >= maxLackingHashes {
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for drop := range p.lacking {
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delete(p.lacking, drop)
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break
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}
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}
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p.lacking[hash] = struct{}{}
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}
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// Lacks retrieves whether the hash of a blockchain item is on the peers lacking
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// list (i.e. whether we know that the peer does not have it).
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func (p *peer) Lacks(hash common.Hash) bool {
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p.lock.RLock()
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defer p.lock.RUnlock()
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_, ok := p.lacking[hash]
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return ok
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}
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// String implements fmt.Stringer.
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func (p *peer) String() string {
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p.lock.RLock()
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defer p.lock.RUnlock()
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return fmt.Sprintf("Peer %s [%s]", p.id, strings.Join([]string{
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fmt.Sprintf("hs %3.2f/s", p.headerThroughput),
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fmt.Sprintf("bs %3.2f/s", p.blockThroughput),
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fmt.Sprintf("rs %3.2f/s", p.receiptThroughput),
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fmt.Sprintf("ss %3.2f/s", p.stateThroughput),
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fmt.Sprintf("miss %4d", len(p.lacking)),
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fmt.Sprintf("rtt %v", p.rtt),
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}, ", "))
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}
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// peerSet represents the collection of active peer participating in the chain
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// download procedure.
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type peerSet struct {
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peers map[string]*peer
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lock sync.RWMutex
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}
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// newPeerSet creates a new peer set top track the active download sources.
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func newPeerSet() *peerSet {
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return &peerSet{
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peers: make(map[string]*peer),
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}
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}
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// Reset iterates over the current peer set, and resets each of the known peers
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// to prepare for a next batch of block retrieval.
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func (ps *peerSet) Reset() {
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ps.lock.RLock()
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defer ps.lock.RUnlock()
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for _, peer := range ps.peers {
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peer.Reset()
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}
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}
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// Register injects a new peer into the working set, or returns an error if the
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// peer is already known.
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//
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// The method also sets the starting throughput values of the new peer to the
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// average of all existing peers, to give it a realistic chance of being used
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// for data retrievals.
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func (ps *peerSet) Register(p *peer) error {
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// Retrieve the current median RTT as a sane default
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p.rtt = ps.medianRTT()
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// Register the new peer with some meaningful defaults
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ps.lock.Lock()
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defer ps.lock.Unlock()
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if _, ok := ps.peers[p.id]; ok {
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return errAlreadyRegistered
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}
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if len(ps.peers) > 0 {
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p.headerThroughput, p.blockThroughput, p.receiptThroughput, p.stateThroughput = 0, 0, 0, 0
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for _, peer := range ps.peers {
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peer.lock.RLock()
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p.headerThroughput += peer.headerThroughput
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p.blockThroughput += peer.blockThroughput
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p.receiptThroughput += peer.receiptThroughput
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p.stateThroughput += peer.stateThroughput
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peer.lock.RUnlock()
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}
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p.headerThroughput /= float64(len(ps.peers))
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p.blockThroughput /= float64(len(ps.peers))
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p.receiptThroughput /= float64(len(ps.peers))
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p.stateThroughput /= float64(len(ps.peers))
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}
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ps.peers[p.id] = p
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return nil
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}
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// Unregister removes a remote peer from the active set, disabling any further
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// actions to/from that particular entity.
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func (ps *peerSet) Unregister(id string) error {
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ps.lock.Lock()
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defer ps.lock.Unlock()
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if _, ok := ps.peers[id]; !ok {
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return errNotRegistered
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}
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delete(ps.peers, id)
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return nil
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}
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// Peer retrieves the registered peer with the given id.
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func (ps *peerSet) Peer(id string) *peer {
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ps.lock.RLock()
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defer ps.lock.RUnlock()
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return ps.peers[id]
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}
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// Len returns if the current number of peers in the set.
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func (ps *peerSet) Len() int {
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ps.lock.RLock()
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defer ps.lock.RUnlock()
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return len(ps.peers)
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}
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// AllPeers retrieves a flat list of all the peers within the set.
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func (ps *peerSet) AllPeers() []*peer {
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ps.lock.RLock()
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defer ps.lock.RUnlock()
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list := make([]*peer, 0, len(ps.peers))
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for _, p := range ps.peers {
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list = append(list, p)
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}
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return list
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}
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// HeaderIdlePeers retrieves a flat list of all the currently header-idle peers
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// within the active peer set, ordered by their reputation.
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func (ps *peerSet) HeaderIdlePeers() ([]*peer, int) {
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idle := func(p *peer) bool {
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return atomic.LoadInt32(&p.headerIdle) == 0
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}
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throughput := func(p *peer) float64 {
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p.lock.RLock()
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defer p.lock.RUnlock()
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return p.headerThroughput
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}
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return ps.idlePeers(62, 64, idle, throughput)
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}
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// BodyIdlePeers retrieves a flat list of all the currently body-idle peers within
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// the active peer set, ordered by their reputation.
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func (ps *peerSet) BodyIdlePeers() ([]*peer, int) {
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idle := func(p *peer) bool {
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return atomic.LoadInt32(&p.blockIdle) == 0
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}
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throughput := func(p *peer) float64 {
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p.lock.RLock()
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defer p.lock.RUnlock()
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return p.blockThroughput
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}
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return ps.idlePeers(62, 64, idle, throughput)
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}
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// ReceiptIdlePeers retrieves a flat list of all the currently receipt-idle peers
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// within the active peer set, ordered by their reputation.
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func (ps *peerSet) ReceiptIdlePeers() ([]*peer, int) {
|
|
idle := func(p *peer) bool {
|
|
return atomic.LoadInt32(&p.receiptIdle) == 0
|
|
}
|
|
throughput := func(p *peer) float64 {
|
|
p.lock.RLock()
|
|
defer p.lock.RUnlock()
|
|
return p.receiptThroughput
|
|
}
|
|
return ps.idlePeers(63, 64, idle, throughput)
|
|
}
|
|
|
|
// NodeDataIdlePeers retrieves a flat list of all the currently node-data-idle
|
|
// peers within the active peer set, ordered by their reputation.
|
|
func (ps *peerSet) NodeDataIdlePeers() ([]*peer, int) {
|
|
idle := func(p *peer) bool {
|
|
return atomic.LoadInt32(&p.stateIdle) == 0
|
|
}
|
|
throughput := func(p *peer) float64 {
|
|
p.lock.RLock()
|
|
defer p.lock.RUnlock()
|
|
return p.stateThroughput
|
|
}
|
|
return ps.idlePeers(63, 64, idle, throughput)
|
|
}
|
|
|
|
// idlePeers retrieves a flat list of all currently idle peers satisfying the
|
|
// protocol version constraints, using the provided function to check idleness.
|
|
// The resulting set of peers are sorted by their measure throughput.
|
|
func (ps *peerSet) idlePeers(minProtocol, maxProtocol int, idleCheck func(*peer) bool, throughput func(*peer) float64) ([]*peer, int) {
|
|
ps.lock.RLock()
|
|
defer ps.lock.RUnlock()
|
|
|
|
idle, total := make([]*peer, 0, len(ps.peers)), 0
|
|
for _, p := range ps.peers {
|
|
if p.version >= minProtocol && p.version <= maxProtocol {
|
|
if idleCheck(p) {
|
|
idle = append(idle, p)
|
|
}
|
|
total++
|
|
}
|
|
}
|
|
for i := 0; i < len(idle); i++ {
|
|
for j := i + 1; j < len(idle); j++ {
|
|
if throughput(idle[i]) < throughput(idle[j]) {
|
|
idle[i], idle[j] = idle[j], idle[i]
|
|
}
|
|
}
|
|
}
|
|
return idle, total
|
|
}
|
|
|
|
// medianRTT returns the median RTT of te peerset, considering only the tuning
|
|
// peers if there are more peers available.
|
|
func (ps *peerSet) medianRTT() time.Duration {
|
|
// Gather all the currnetly measured round trip times
|
|
ps.lock.RLock()
|
|
defer ps.lock.RUnlock()
|
|
|
|
rtts := make([]float64, 0, len(ps.peers))
|
|
for _, p := range ps.peers {
|
|
p.lock.RLock()
|
|
rtts = append(rtts, float64(p.rtt))
|
|
p.lock.RUnlock()
|
|
}
|
|
sort.Float64s(rtts)
|
|
|
|
median := rttMaxEstimate
|
|
if qosTuningPeers <= len(rtts) {
|
|
median = time.Duration(rtts[qosTuningPeers/2]) // Median of our tuning peers
|
|
} else if len(rtts) > 0 {
|
|
median = time.Duration(rtts[len(rtts)/2]) // Median of our connected peers (maintain even like this some baseline qos)
|
|
}
|
|
// Restrict the RTT into some QoS defaults, irrelevant of true RTT
|
|
if median < rttMinEstimate {
|
|
median = rttMinEstimate
|
|
}
|
|
if median > rttMaxEstimate {
|
|
median = rttMaxEstimate
|
|
}
|
|
return median
|
|
}
|