forked from cerc-io/plugeth
351 lines
10 KiB
Go
351 lines
10 KiB
Go
// Copyright 2016 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 kademlia
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import (
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"encoding/json"
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"fmt"
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"io/ioutil"
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"os"
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"sync"
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"time"
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"github.com/ethereum/go-ethereum/log"
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)
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type NodeData interface {
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json.Marshaler
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json.Unmarshaler
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}
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// allow inactive peers under
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type NodeRecord struct {
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Addr Address // address of node
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Url string // Url, used to connect to node
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After time.Time // next call after time
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Seen time.Time // last connected at time
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Meta *json.RawMessage // arbitrary metadata saved for a peer
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node Node
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}
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func (self *NodeRecord) setSeen() {
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t := time.Now()
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self.Seen = t
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self.After = t
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}
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func (self *NodeRecord) String() string {
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return fmt.Sprintf("<%v>", self.Addr)
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}
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// persisted node record database ()
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type KadDb struct {
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Address Address
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Nodes [][]*NodeRecord
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index map[Address]*NodeRecord
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cursors []int
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lock sync.RWMutex
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purgeInterval time.Duration
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initialRetryInterval time.Duration
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connRetryExp int
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}
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func newKadDb(addr Address, params *KadParams) *KadDb {
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return &KadDb{
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Address: addr,
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Nodes: make([][]*NodeRecord, params.MaxProx+1), // overwritten by load
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cursors: make([]int, params.MaxProx+1),
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index: make(map[Address]*NodeRecord),
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purgeInterval: params.PurgeInterval,
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initialRetryInterval: params.InitialRetryInterval,
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connRetryExp: params.ConnRetryExp,
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}
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}
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func (self *KadDb) findOrCreate(index int, a Address, url string) *NodeRecord {
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defer self.lock.Unlock()
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self.lock.Lock()
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record, found := self.index[a]
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if !found {
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record = &NodeRecord{
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Addr: a,
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Url: url,
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}
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log.Info(fmt.Sprintf("add new record %v to kaddb", record))
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// insert in kaddb
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self.index[a] = record
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self.Nodes[index] = append(self.Nodes[index], record)
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} else {
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log.Info(fmt.Sprintf("found record %v in kaddb", record))
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}
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// update last seen time
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record.setSeen()
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// update with url in case IP/port changes
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record.Url = url
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return record
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}
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// add adds node records to kaddb (persisted node record db)
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func (self *KadDb) add(nrs []*NodeRecord, proximityBin func(Address) int) {
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defer self.lock.Unlock()
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self.lock.Lock()
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var n int
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var nodes []*NodeRecord
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for _, node := range nrs {
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_, found := self.index[node.Addr]
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if !found && node.Addr != self.Address {
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node.setSeen()
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self.index[node.Addr] = node
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index := proximityBin(node.Addr)
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dbcursor := self.cursors[index]
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nodes = self.Nodes[index]
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// this is inefficient for allocation, need to just append then shift
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newnodes := make([]*NodeRecord, len(nodes)+1)
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copy(newnodes[:], nodes[:dbcursor])
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newnodes[dbcursor] = node
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copy(newnodes[dbcursor+1:], nodes[dbcursor:])
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log.Trace(fmt.Sprintf("new nodes: %v, nodes: %v", newnodes, nodes))
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self.Nodes[index] = newnodes
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n++
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}
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}
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if n > 0 {
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log.Debug(fmt.Sprintf("%d/%d node records (new/known)", n, len(nrs)))
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}
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}
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/*
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next return one node record with the highest priority for desired
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connection.
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This is used to pick candidates for live nodes that are most wanted for
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a higly connected low centrality network structure for Swarm which best suits
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for a Kademlia-style routing.
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* Starting as naive node with empty db, this implements Kademlia bootstrapping
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* As a mature node, it fills short lines. All on demand.
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The candidate is chosen using the following strategy:
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We check for missing online nodes in the buckets for 1 upto Max BucketSize rounds.
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On each round we proceed from the low to high proximity order buckets.
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If the number of active nodes (=connected peers) is < rounds, then start looking
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for a known candidate. To determine if there is a candidate to recommend the
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kaddb node record database row corresponding to the bucket is checked.
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If the row cursor is on position i, the ith element in the row is chosen.
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If the record is scheduled not to be retried before NOW, the next element is taken.
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If the record is scheduled to be retried, it is set as checked, scheduled for
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checking and is returned. The time of the next check is in X (duration) such that
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X = ConnRetryExp * delta where delta is the time past since the last check and
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ConnRetryExp is constant obsoletion factor. (Note that when node records are added
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from peer messages, they are marked as checked and placed at the cursor, ie.
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given priority over older entries). Entries which were checked more than
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purgeInterval ago are deleted from the kaddb row. If no candidate is found after
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a full round of checking the next bucket up is considered. If no candidate is
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found when we reach the maximum-proximity bucket, the next round starts.
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node record a is more favoured to b a > b iff a is a passive node (record of
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offline past peer)
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|proxBin(a)| < |proxBin(b)|
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|| (proxBin(a) < proxBin(b) && |proxBin(a)| == |proxBin(b)|)
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|| (proxBin(a) == proxBin(b) && lastChecked(a) < lastChecked(b))
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The second argument returned names the first missing slot found
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*/
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func (self *KadDb) findBest(maxBinSize int, binSize func(int) int) (node *NodeRecord, need bool, proxLimit int) {
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// return nil, proxLimit indicates that all buckets are filled
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defer self.lock.Unlock()
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self.lock.Lock()
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var interval time.Duration
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var found bool
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var purge []bool
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var delta time.Duration
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var cursor int
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var count int
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var after time.Time
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// iterate over columns maximum bucketsize times
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for rounds := 1; rounds <= maxBinSize; rounds++ {
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ROUND:
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// iterate over rows from PO 0 upto MaxProx
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for po, dbrow := range self.Nodes {
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// if row has rounds connected peers, then take the next
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if binSize(po) >= rounds {
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continue ROUND
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}
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if !need {
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// set proxlimit to the PO where the first missing slot is found
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proxLimit = po
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need = true
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}
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purge = make([]bool, len(dbrow))
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// there is a missing slot - finding a node to connect to
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// select a node record from the relavant kaddb row (of identical prox order)
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ROW:
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for cursor = self.cursors[po]; !found && count < len(dbrow); cursor = (cursor + 1) % len(dbrow) {
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count++
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node = dbrow[cursor]
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// skip already connected nodes
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if node.node != nil {
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log.Debug(fmt.Sprintf("kaddb record %v (PO%03d:%d/%d) already connected", node.Addr, po, cursor, len(dbrow)))
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continue ROW
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}
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// if node is scheduled to connect
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if node.After.After(time.Now()) {
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log.Debug(fmt.Sprintf("kaddb record %v (PO%03d:%d) skipped. seen at %v (%v ago), scheduled at %v", node.Addr, po, cursor, node.Seen, delta, node.After))
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continue ROW
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}
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delta = time.Since(node.Seen)
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if delta < self.initialRetryInterval {
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delta = self.initialRetryInterval
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}
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if delta > self.purgeInterval {
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// remove node
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purge[cursor] = true
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log.Debug(fmt.Sprintf("kaddb record %v (PO%03d:%d) unreachable since %v. Removed", node.Addr, po, cursor, node.Seen))
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continue ROW
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}
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log.Debug(fmt.Sprintf("kaddb record %v (PO%03d:%d) ready to be tried. seen at %v (%v ago), scheduled at %v", node.Addr, po, cursor, node.Seen, delta, node.After))
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// scheduling next check
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interval = delta * time.Duration(self.connRetryExp)
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after = time.Now().Add(interval)
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log.Debug(fmt.Sprintf("kaddb record %v (PO%03d:%d) selected as candidate connection %v. seen at %v (%v ago), selectable since %v, retry after %v (in %v)", node.Addr, po, cursor, rounds, node.Seen, delta, node.After, after, interval))
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node.After = after
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found = true
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} // ROW
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self.cursors[po] = cursor
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self.delete(po, purge)
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if found {
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return node, need, proxLimit
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}
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} // ROUND
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} // ROUNDS
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return nil, need, proxLimit
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}
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// deletes the noderecords of a kaddb row corresponding to the indexes
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// caller must hold the dblock
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// the call is unsafe, no index checks
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func (self *KadDb) delete(row int, purge []bool) {
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var nodes []*NodeRecord
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dbrow := self.Nodes[row]
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for i, del := range purge {
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if i == self.cursors[row] {
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//reset cursor
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self.cursors[row] = len(nodes)
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}
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// delete the entry to be purged
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if del {
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delete(self.index, dbrow[i].Addr)
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continue
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}
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// otherwise append to new list
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nodes = append(nodes, dbrow[i])
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}
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self.Nodes[row] = nodes
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}
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// save persists kaddb on disk (written to file on path in json format.
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func (self *KadDb) save(path string, cb func(*NodeRecord, Node)) error {
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defer self.lock.Unlock()
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self.lock.Lock()
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var n int
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for _, b := range self.Nodes {
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for _, node := range b {
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n++
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node.After = time.Now()
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node.Seen = time.Now()
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if cb != nil {
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cb(node, node.node)
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}
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}
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}
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data, err := json.MarshalIndent(self, "", " ")
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if err != nil {
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return err
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}
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err = ioutil.WriteFile(path, data, os.ModePerm)
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if err != nil {
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log.Warn(fmt.Sprintf("unable to save kaddb with %v nodes to %v: %v", n, path, err))
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} else {
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log.Info(fmt.Sprintf("saved kaddb with %v nodes to %v", n, path))
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}
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return err
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}
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// Load(path) loads the node record database (kaddb) from file on path.
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func (self *KadDb) load(path string, cb func(*NodeRecord, Node) error) (err error) {
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defer self.lock.Unlock()
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self.lock.Lock()
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var data []byte
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data, err = ioutil.ReadFile(path)
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if err != nil {
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return
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}
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err = json.Unmarshal(data, self)
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if err != nil {
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return
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}
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var n int
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var purge []bool
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for po, b := range self.Nodes {
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purge = make([]bool, len(b))
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ROW:
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for i, node := range b {
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if cb != nil {
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err = cb(node, node.node)
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if err != nil {
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purge[i] = true
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continue ROW
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}
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}
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n++
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if node.After.IsZero() {
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node.After = time.Now()
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}
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self.index[node.Addr] = node
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}
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self.delete(po, purge)
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}
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log.Info(fmt.Sprintf("loaded kaddb with %v nodes from %v", n, path))
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return
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}
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// accessor for KAD offline db count
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func (self *KadDb) count() int {
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defer self.lock.Unlock()
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self.lock.Lock()
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return len(self.index)
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}
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