forked from cerc-io/plugeth
3e795881ea
This change extracts the peer QoS tracking logic from eth/downloader, moving it into the new package p2p/msgrate. The job of msgrate.Tracker is determining suitable timeout values and request sizes per peer. The snap sync scheduler now uses msgrate.Tracker instead of the hard-coded 15s timeout. This should make the sync work better on network links with high latency.
500 lines
16 KiB
Go
500 lines
16 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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"math"
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"math/big"
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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"
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"github.com/ethereum/go-ethereum/eth/protocols/eth"
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"github.com/ethereum/go-ethereum/event"
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"github.com/ethereum/go-ethereum/log"
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"github.com/ethereum/go-ethereum/p2p/msgrate"
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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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)
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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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// peerConnection represents an active peer from which hashes and blocks are retrieved.
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type peerConnection 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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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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rates *msgrate.Tracker // Tracker to hone in on the number of items retrievable per second
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lacking map[common.Hash]struct{} // Set of hashes not to request (didn't have previously)
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peer Peer
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version uint // Eth protocol version number to switch strategies
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log log.Logger // Contextual logger to add extra infos to peer logs
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lock sync.RWMutex
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}
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// LightPeer encapsulates the methods required to synchronise with a remote light peer.
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type LightPeer interface {
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Head() (common.Hash, *big.Int)
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RequestHeadersByHash(common.Hash, int, int, bool) error
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RequestHeadersByNumber(uint64, int, int, bool) error
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}
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// Peer encapsulates the methods required to synchronise with a remote full peer.
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type Peer interface {
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LightPeer
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RequestBodies([]common.Hash) error
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RequestReceipts([]common.Hash) error
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RequestNodeData([]common.Hash) error
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}
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// lightPeerWrapper wraps a LightPeer struct, stubbing out the Peer-only methods.
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type lightPeerWrapper struct {
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peer LightPeer
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}
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func (w *lightPeerWrapper) Head() (common.Hash, *big.Int) { return w.peer.Head() }
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func (w *lightPeerWrapper) RequestHeadersByHash(h common.Hash, amount int, skip int, reverse bool) error {
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return w.peer.RequestHeadersByHash(h, amount, skip, reverse)
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}
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func (w *lightPeerWrapper) RequestHeadersByNumber(i uint64, amount int, skip int, reverse bool) error {
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return w.peer.RequestHeadersByNumber(i, amount, skip, reverse)
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}
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func (w *lightPeerWrapper) RequestBodies([]common.Hash) error {
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panic("RequestBodies not supported in light client mode sync")
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}
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func (w *lightPeerWrapper) RequestReceipts([]common.Hash) error {
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panic("RequestReceipts not supported in light client mode sync")
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}
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func (w *lightPeerWrapper) RequestNodeData([]common.Hash) error {
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panic("RequestNodeData not supported in light client mode sync")
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}
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// newPeerConnection creates a new downloader peer.
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func newPeerConnection(id string, version uint, peer Peer, logger log.Logger) *peerConnection {
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return &peerConnection{
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id: id,
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lacking: make(map[common.Hash]struct{}),
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peer: peer,
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version: version,
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log: logger,
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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 *peerConnection) 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.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 *peerConnection) FetchHeaders(from uint64, count int) error {
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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 (absolute upwards without gaps)
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go p.peer.RequestHeadersByNumber(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 *peerConnection) FetchBodies(request *fetchRequest) error {
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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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go func() {
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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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p.peer.RequestBodies(hashes)
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}()
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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 *peerConnection) FetchReceipts(request *fetchRequest) error {
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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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go func() {
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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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p.peer.RequestReceipts(hashes)
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}()
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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 *peerConnection) FetchNodeData(hashes []common.Hash) error {
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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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go p.peer.RequestNodeData(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 *peerConnection) SetHeadersIdle(delivered int, deliveryTime time.Time) {
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p.rates.Update(eth.BlockHeadersMsg, deliveryTime.Sub(p.headerStarted), delivered)
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atomic.StoreInt32(&p.headerIdle, 0)
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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 *peerConnection) SetBodiesIdle(delivered int, deliveryTime time.Time) {
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p.rates.Update(eth.BlockBodiesMsg, deliveryTime.Sub(p.blockStarted), delivered)
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atomic.StoreInt32(&p.blockIdle, 0)
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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 *peerConnection) SetReceiptsIdle(delivered int, deliveryTime time.Time) {
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p.rates.Update(eth.ReceiptsMsg, deliveryTime.Sub(p.receiptStarted), delivered)
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atomic.StoreInt32(&p.receiptIdle, 0)
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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 *peerConnection) SetNodeDataIdle(delivered int, deliveryTime time.Time) {
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p.rates.Update(eth.NodeDataMsg, deliveryTime.Sub(p.stateStarted), delivered)
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atomic.StoreInt32(&p.stateIdle, 0)
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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 *peerConnection) HeaderCapacity(targetRTT time.Duration) int {
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cap := int(math.Ceil(p.rates.Capacity(eth.BlockHeadersMsg, targetRTT)))
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if cap > MaxHeaderFetch {
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cap = MaxHeaderFetch
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}
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return cap
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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 *peerConnection) BlockCapacity(targetRTT time.Duration) int {
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cap := int(math.Ceil(p.rates.Capacity(eth.BlockBodiesMsg, targetRTT)))
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if cap > MaxBlockFetch {
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cap = MaxBlockFetch
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}
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return cap
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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 *peerConnection) ReceiptCapacity(targetRTT time.Duration) int {
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cap := int(math.Ceil(p.rates.Capacity(eth.ReceiptsMsg, targetRTT)))
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if cap > MaxReceiptFetch {
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cap = MaxReceiptFetch
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}
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return cap
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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 *peerConnection) NodeDataCapacity(targetRTT time.Duration) int {
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cap := int(math.Ceil(p.rates.Capacity(eth.NodeDataMsg, targetRTT)))
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if cap > MaxStateFetch {
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cap = MaxStateFetch
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}
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return cap
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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 *peerConnection) 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 *peerConnection) 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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// 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]*peerConnection
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rates *msgrate.Trackers // Set of rate trackers to give the sync a common beat
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newPeerFeed event.Feed
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peerDropFeed event.Feed
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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]*peerConnection),
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rates: msgrate.NewTrackers(log.New("proto", "eth")),
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}
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}
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// SubscribeNewPeers subscribes to peer arrival events.
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func (ps *peerSet) SubscribeNewPeers(ch chan<- *peerConnection) event.Subscription {
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return ps.newPeerFeed.Subscribe(ch)
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}
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// SubscribePeerDrops subscribes to peer departure events.
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func (ps *peerSet) SubscribePeerDrops(ch chan<- *peerConnection) event.Subscription {
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return ps.peerDropFeed.Subscribe(ch)
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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 *peerConnection) error {
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// Register the new peer with some meaningful defaults
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ps.lock.Lock()
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if _, ok := ps.peers[p.id]; ok {
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ps.lock.Unlock()
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return errAlreadyRegistered
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}
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p.rates = msgrate.NewTracker(ps.rates.MeanCapacities(), ps.rates.MedianRoundTrip())
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if err := ps.rates.Track(p.id, p.rates); err != nil {
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return err
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}
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ps.peers[p.id] = p
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ps.lock.Unlock()
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ps.newPeerFeed.Send(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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p, ok := ps.peers[id]
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if !ok {
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ps.lock.Unlock()
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return errNotRegistered
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}
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delete(ps.peers, id)
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ps.rates.Untrack(id)
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ps.lock.Unlock()
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ps.peerDropFeed.Send(p)
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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) *peerConnection {
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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() []*peerConnection {
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ps.lock.RLock()
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defer ps.lock.RUnlock()
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list := make([]*peerConnection, 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() ([]*peerConnection, int) {
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idle := func(p *peerConnection) bool {
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return atomic.LoadInt32(&p.headerIdle) == 0
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}
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throughput := func(p *peerConnection) float64 {
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return p.rates.Capacity(eth.BlockHeadersMsg, time.Second)
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}
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return ps.idlePeers(eth.ETH65, eth.ETH66, 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() ([]*peerConnection, int) {
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idle := func(p *peerConnection) bool {
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return atomic.LoadInt32(&p.blockIdle) == 0
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}
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throughput := func(p *peerConnection) float64 {
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return p.rates.Capacity(eth.BlockBodiesMsg, time.Second)
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}
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return ps.idlePeers(eth.ETH65, eth.ETH66, 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() ([]*peerConnection, int) {
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idle := func(p *peerConnection) bool {
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return atomic.LoadInt32(&p.receiptIdle) == 0
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}
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throughput := func(p *peerConnection) float64 {
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return p.rates.Capacity(eth.ReceiptsMsg, time.Second)
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}
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return ps.idlePeers(eth.ETH65, eth.ETH66, idle, throughput)
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}
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// NodeDataIdlePeers retrieves a flat list of all the currently node-data-idle
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// peers within the active peer set, ordered by their reputation.
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func (ps *peerSet) NodeDataIdlePeers() ([]*peerConnection, int) {
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idle := func(p *peerConnection) bool {
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return atomic.LoadInt32(&p.stateIdle) == 0
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}
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throughput := func(p *peerConnection) float64 {
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return p.rates.Capacity(eth.NodeDataMsg, time.Second)
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}
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return ps.idlePeers(eth.ETH65, eth.ETH66, idle, throughput)
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}
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// idlePeers retrieves a flat list of all currently idle peers satisfying the
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// protocol version constraints, using the provided function to check idleness.
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// The resulting set of peers are sorted by their measure throughput.
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func (ps *peerSet) idlePeers(minProtocol, maxProtocol uint, idleCheck func(*peerConnection) bool, throughput func(*peerConnection) float64) ([]*peerConnection, int) {
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ps.lock.RLock()
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defer ps.lock.RUnlock()
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idle, total := make([]*peerConnection, 0, len(ps.peers)), 0
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tps := make([]float64, 0, len(ps.peers))
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for _, p := range ps.peers {
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if p.version >= minProtocol && p.version <= maxProtocol {
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if idleCheck(p) {
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idle = append(idle, p)
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tps = append(tps, throughput(p))
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}
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total++
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}
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}
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// And sort them
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sortPeers := &peerThroughputSort{idle, tps}
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sort.Sort(sortPeers)
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return sortPeers.p, total
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}
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// peerThroughputSort implements the Sort interface, and allows for
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// sorting a set of peers by their throughput
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// The sorted data is with the _highest_ throughput first
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type peerThroughputSort struct {
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p []*peerConnection
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|
tp []float64
|
|
}
|
|
|
|
func (ps *peerThroughputSort) Len() int {
|
|
return len(ps.p)
|
|
}
|
|
|
|
func (ps *peerThroughputSort) Less(i, j int) bool {
|
|
return ps.tp[i] > ps.tp[j]
|
|
}
|
|
|
|
func (ps *peerThroughputSort) Swap(i, j int) {
|
|
ps.p[i], ps.p[j] = ps.p[j], ps.p[i]
|
|
ps.tp[i], ps.tp[j] = ps.tp[j], ps.tp[i]
|
|
}
|