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// Copyright (C) 2019 Storj Labs, Inc.
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// See LICENSE for copying information.
package kademlia
import (
"context"
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"math/rand"
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"sync"
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"sync/atomic"
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"time"
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"github.com/zeebo/errs"
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"go.uber.org/zap"
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monkit "gopkg.in/spacemonkeygo/monkit.v2"
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"storj.io/storj/internal/sync2"
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"storj.io/storj/pkg/identity"
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"storj.io/storj/pkg/kademlia/kademliaclient"
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"storj.io/storj/pkg/pb"
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"storj.io/storj/pkg/storj"
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"storj.io/storj/pkg/transport"
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"storj.io/storj/satellite/overlay"
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"storj.io/storj/storage"
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)
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var (
// NodeErr is the class for all errors pertaining to node operations
NodeErr = errs . Class ( "node error" )
// BootstrapErr is the class for all errors pertaining to bootstrapping a node
BootstrapErr = errs . Class ( "bootstrap node error" )
// NodeNotFound is returned when a lookup can not produce the requested node
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NodeNotFound = errs . Class ( "node not found" )
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// TODO: shouldn't default to TCP but not sure what to do yet
defaultTransport = pb . NodeTransport_TCP_TLS_GRPC
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mon = monkit . Package ( )
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)
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// Kademlia is an implementation of kademlia network.
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type Kademlia struct {
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log * zap . Logger
alpha int // alpha is a system wide concurrency parameter
routingTable * RoutingTable
bootstrapNodes [ ] pb . Node
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dialer * kademliaclient . Dialer
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lookups sync2 . WorkGroup
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bootstrapFinished sync2 . Fence
bootstrapBackoffMax time . Duration
bootstrapBackoffBase time . Duration
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refreshThreshold int64
RefreshBuckets sync2 . Cycle
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mu sync . Mutex
lastPinged time . Time
lastQueried time . Time
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}
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// NewService returns a newly configured Kademlia instance
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func NewService ( log * zap . Logger , transport transport . Client , rt * RoutingTable , config Config ) ( * Kademlia , error ) {
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k := & Kademlia {
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log : log ,
alpha : config . Alpha ,
routingTable : rt ,
bootstrapNodes : config . BootstrapNodes ( ) ,
bootstrapBackoffMax : config . BootstrapBackoffMax ,
bootstrapBackoffBase : config . BootstrapBackoffBase ,
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dialer : kademliaclient . NewDialer ( log . Named ( "dialer" ) , transport ) ,
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refreshThreshold : int64 ( time . Minute ) ,
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}
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return k , nil
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}
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// Close closes all kademlia connections and prevents new ones from being created.
func ( k * Kademlia ) Close ( ) error {
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dialerErr := k . dialer . Close ( )
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k . lookups . Close ( )
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k . lookups . Wait ( )
return dialerErr
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}
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// LastPinged returns last time someone pinged this node.
func ( k * Kademlia ) LastPinged ( ) time . Time {
k . mu . Lock ( )
defer k . mu . Unlock ( )
return k . lastPinged
}
// Pinged notifies the service it has been remotely pinged.
func ( k * Kademlia ) Pinged ( ) {
k . mu . Lock ( )
defer k . mu . Unlock ( )
k . lastPinged = time . Now ( )
}
// LastQueried returns last time someone queried this node.
func ( k * Kademlia ) LastQueried ( ) time . Time {
k . mu . Lock ( )
defer k . mu . Unlock ( )
return k . lastQueried
}
// Queried notifies the service it has been remotely queried
func ( k * Kademlia ) Queried ( ) {
k . mu . Lock ( )
defer k . mu . Unlock ( )
k . lastQueried = time . Now ( )
}
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// FindNear returns all nodes from a starting node up to a maximum limit
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// stored in the local routing table.
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func ( k * Kademlia ) FindNear ( ctx context . Context , start storj . NodeID , limit int ) ( _ [ ] * pb . Node , err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
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return k . routingTable . FindNear ( ctx , start , limit )
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}
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// GetBucketIds returns a storage.Keys type of bucket ID's in the Kademlia instance
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func ( k * Kademlia ) GetBucketIds ( ctx context . Context ) ( _ storage . Keys , err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
return k . routingTable . GetBucketIds ( ctx )
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}
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// Local returns the local node
func ( k * Kademlia ) Local ( ) overlay . NodeDossier {
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return k . routingTable . Local ( )
}
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// SetBootstrapNodes sets the bootstrap nodes.
// Must be called before anything starting to use kademlia.
func ( k * Kademlia ) SetBootstrapNodes ( nodes [ ] pb . Node ) { k . bootstrapNodes = nodes }
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// GetBootstrapNodes gets the bootstrap nodes.
func ( k * Kademlia ) GetBootstrapNodes ( ) [ ] pb . Node { return k . bootstrapNodes }
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// DumpNodes returns all the nodes in the node database
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func ( k * Kademlia ) DumpNodes ( ctx context . Context ) ( _ [ ] * pb . Node , err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
return k . routingTable . DumpNodes ( ctx )
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}
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// Bootstrap contacts one of a set of pre defined trusted nodes on the network and
// begins populating the local Kademlia node
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func ( k * Kademlia ) Bootstrap ( ctx context . Context ) ( err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
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defer k . bootstrapFinished . Release ( )
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defer k . timeTrack ( time . Now ( ) , "Bootstrap" )
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if ! k . lookups . Start ( ) {
return context . Canceled
}
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defer k . lookups . Done ( )
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if len ( k . bootstrapNodes ) == 0 {
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k . log . Warn ( "No bootsrap address specified" , zap . Stringer ( k . routingTable . self . Type . String ( ) , k . routingTable . self . Id ) )
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return nil
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}
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waitInterval := k . bootstrapBackoffBase
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var errGroup errs . Group
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for i := 0 ; waitInterval < k . bootstrapBackoffMax ; i ++ {
if i > 0 {
time . Sleep ( waitInterval )
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waitInterval *= 2
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}
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var foundOnlineBootstrap bool
for i , node := range k . bootstrapNodes {
if ctx . Err ( ) != nil {
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k . log . Debug ( "Context Error received while Boostraping " , zap . Stringer ( k . routingTable . self . Type . String ( ) , k . routingTable . self . Id ) , zap . Stringer ( "Bootstrap Node" , node . Id ) )
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errGroup . Add ( ctx . Err ( ) )
return errGroup . Err ( )
}
ident , err := k . dialer . FetchPeerIdentityUnverified ( ctx , node . Address . Address )
if err != nil {
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errGroup . Add ( BootstrapErr . Wrap ( BootstrapErr . New ( "%s : %s unable to fetch unverified peer identity node address %s: %s" , k . routingTable . self . Type . String ( ) , k . routingTable . self . Id . String ( ) , node . Address . Address , err ) ) )
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continue
}
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// FetchPeerIdentityUnverified uses transport.DialAddress, which should be
// enough to have the TransportObservers find out about this node. Unfortunately,
// getting DialAddress to be able to grab the node id seems challenging with gRPC.
// The way FetchPeerIdentityUnverified does is is to do a basic ping request, which
// we have now done. Let's tell all the transport observers now.
// TODO: remove the explicit transport observer notification
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k . dialer . AlertSuccess ( ctx , & pb . Node {
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Id : ident . ID ,
Address : node . Address ,
} )
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k . routingTable . mutex . Lock ( )
node . Id = ident . ID
k . bootstrapNodes [ i ] = node
k . routingTable . mutex . Unlock ( )
foundOnlineBootstrap = true
}
if ! foundOnlineBootstrap {
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errGroup . Add ( BootstrapErr . New ( "%s : %s found no bootstrap node found online" , k . routingTable . self . Type . String ( ) , k . routingTable . self . Id . String ( ) ) )
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continue
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}
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//find nodes most similar to self
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k . routingTable . mutex . Lock ( )
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id := k . routingTable . self . Id
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k . routingTable . mutex . Unlock ( )
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_ , err := k . lookup ( ctx , id )
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if err != nil {
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errGroup . Add ( BootstrapErr . Wrap ( err ) )
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continue
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}
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return nil
// TODO(dylan): We do not currently handle this last bit of behavior.
// ```
// Finally, u refreshes all k-buckets further away than its closest neighbor.
// During the refreshes, u both populates its own k-buckets and inserts
// itself into other nodes' k-buckets as necessary.
// ```
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}
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errGroup . Add ( BootstrapErr . New ( "%s : %s unable to start bootstrap after final wait time of %s" , k . routingTable . self . Type . String ( ) , k . routingTable . self . Id . String ( ) , waitInterval ) )
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return errGroup . Err ( )
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}
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// WaitForBootstrap waits for bootstrap pinging has been completed.
func ( k * Kademlia ) WaitForBootstrap ( ) {
k . bootstrapFinished . Wait ( )
}
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// FetchPeerIdentity connects to a node and returns its peer identity
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func ( k * Kademlia ) FetchPeerIdentity ( ctx context . Context , nodeID storj . NodeID ) ( _ * identity . PeerIdentity , err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
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if ! k . lookups . Start ( ) {
return nil , context . Canceled
}
defer k . lookups . Done ( )
node , err := k . FindNode ( ctx , nodeID )
if err != nil {
return nil , err
}
return k . dialer . FetchPeerIdentity ( ctx , node )
}
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// Ping checks that the provided node is still accessible on the network
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func ( k * Kademlia ) Ping ( ctx context . Context , node pb . Node ) ( _ pb . Node , err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
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if ! k . lookups . Start ( ) {
return pb . Node { } , context . Canceled
}
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defer k . lookups . Done ( )
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ok , err := k . dialer . PingNode ( ctx , node )
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if err != nil {
return pb . Node { } , NodeErr . Wrap ( err )
}
if ! ok {
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return pb . Node { } , NodeErr . New ( "%s : %s failed to ping node ID %s" , k . routingTable . self . Type . String ( ) , k . routingTable . self . Id . String ( ) , node . Id . String ( ) )
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}
return node , nil
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}
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// FetchInfo connects to a node address and returns the node info
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func ( k * Kademlia ) FetchInfo ( ctx context . Context , node pb . Node ) ( _ * pb . InfoResponse , err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
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if ! k . lookups . Start ( ) {
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return nil , context . Canceled
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}
defer k . lookups . Done ( )
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info , err := k . dialer . FetchInfo ( ctx , node )
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if err != nil {
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return nil , NodeErr . Wrap ( NodeErr . New ( "%s : %s failed to fetch info from node ID %s: %s" , k . routingTable . self . Type . String ( ) , k . routingTable . self . Id . String ( ) , node . Id . String ( ) , err ) )
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}
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return info , nil
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}
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// FindNode looks up the provided NodeID first in the local Node, and if it is not found
// begins searching the network for the NodeID. Returns and error if node was not found
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func ( k * Kademlia ) FindNode ( ctx context . Context , nodeID storj . NodeID ) ( _ pb . Node , err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
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if ! k . lookups . Start ( ) {
return pb . Node { } , context . Canceled
}
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defer k . lookups . Done ( )
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results , err := k . lookup ( ctx , nodeID )
if err != nil {
return pb . Node { } , err
}
if len ( results ) < 1 {
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return pb . Node { } , NodeNotFound . Wrap ( NodeNotFound . New ( "%s : %s couldn't find node ID %s: %s" , k . routingTable . self . Type . String ( ) , k . routingTable . self . Id . String ( ) , nodeID . String ( ) , err ) )
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}
return * results [ 0 ] , nil
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}
//lookup initiates a kadmelia node lookup
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func ( k * Kademlia ) lookup ( ctx context . Context , nodeID storj . NodeID ) ( _ [ ] * pb . Node , err error ) {
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defer mon . Task ( ) ( & ctx ) ( & err )
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if ! k . lookups . Start ( ) {
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return nil , context . Canceled
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}
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defer k . lookups . Done ( )
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nodes , err := k . routingTable . FindNear ( ctx , nodeID , k . routingTable . K ( ) )
if err != nil {
return nil , err
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}
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self := k . routingTable . Local ( ) . Node
lookup := newPeerDiscovery ( k . log , k . dialer , nodeID , nodes , k . routingTable . K ( ) , k . alpha , & self )
results , err := lookup . Run ( ctx )
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if err != nil {
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return nil , err
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}
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bucket , err := k . routingTable . getKBucketID ( ctx , nodeID )
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if err != nil {
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k . log . Warn ( "Error getting getKBucketID in kad lookup" , zap . Stringer ( k . routingTable . self . Type . String ( ) , k . routingTable . self . Id ) )
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} else {
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err = k . routingTable . SetBucketTimestamp ( ctx , bucket [ : ] , time . Now ( ) )
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if err != nil {
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k . log . Warn ( "Error updating bucket timestamp in kad lookup" , zap . Stringer ( k . routingTable . self . Type . String ( ) , k . routingTable . self . Id ) )
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}
}
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return results , nil
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}
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// GetNodesWithinKBucket returns all the routing nodes in the specified k-bucket
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func ( k * Kademlia ) GetNodesWithinKBucket ( ctx context . Context , bID bucketID ) ( _ [ ] * pb . Node , err error ) {
return k . routingTable . getUnmarshaledNodesFromBucket ( ctx , bID )
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}
// GetCachedNodesWithinKBucket returns all the cached nodes in the specified k-bucket
func ( k * Kademlia ) GetCachedNodesWithinKBucket ( bID bucketID ) [ ] * pb . Node {
return k . routingTable . replacementCache [ bID ]
}
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// SetBucketRefreshThreshold changes the threshold when buckets are considered stale and need refreshing.
func ( k * Kademlia ) SetBucketRefreshThreshold ( threshold time . Duration ) {
atomic . StoreInt64 ( & k . refreshThreshold , int64 ( threshold ) )
}
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// Run occasionally refreshes stale kad buckets
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func ( k * Kademlia ) Run ( ctx context . Context ) ( err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
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defer k . timeTrack ( time . Now ( ) , "Kad Refresh" )
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if ! k . lookups . Start ( ) {
return context . Canceled
}
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defer k . lookups . Done ( )
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k . RefreshBuckets . SetInterval ( 5 * time . Minute )
return k . RefreshBuckets . Run ( ctx , func ( ctx context . Context ) error {
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threshold := time . Duration ( atomic . LoadInt64 ( & k . refreshThreshold ) )
err := k . refresh ( ctx , threshold )
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if err != nil {
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k . log . Warn ( "bucket refresh failed" , zap . Stringer ( k . routingTable . self . Type . String ( ) , k . routingTable . self . Id ) , zap . Error ( err ) )
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}
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return nil
} )
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}
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// refresh updates each Kademlia bucket not contacted in the last hour
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func ( k * Kademlia ) refresh ( ctx context . Context , threshold time . Duration ) ( err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
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bIDs , err := k . routingTable . GetBucketIds ( ctx )
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if err != nil {
return Error . Wrap ( err )
}
now := time . Now ( )
startID := bucketID { }
var errors errs . Group
for _ , bID := range bIDs {
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endID := keyToBucketID ( bID )
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ts , tErr := k . routingTable . GetBucketTimestamp ( ctx , bID )
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if tErr != nil {
errors . Add ( tErr )
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} else if now . After ( ts . Add ( threshold ) ) {
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rID , _ := randomIDInRange ( startID , endID )
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_ , _ = k . FindNode ( ctx , rID ) // ignore node not found
}
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startID = endID
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}
return Error . Wrap ( errors . Err ( ) )
}
// randomIDInRange finds a random node ID with a range (start..end]
func randomIDInRange ( start , end bucketID ) ( storj . NodeID , error ) {
randID := storj . NodeID { }
divergedHigh := false
divergedLow := false
for x := 0 ; x < len ( randID ) ; x ++ {
s := byte ( 0 )
if ! divergedLow {
s = start [ x ]
}
e := byte ( 255 )
if ! divergedHigh {
e = end [ x ]
}
if s > e {
return storj . NodeID { } , errs . New ( "Random id range was invalid" )
}
if s == e {
randID [ x ] = s
} else {
r := s + byte ( rand . Intn ( int ( e - s ) ) ) + 1
if r < e {
divergedHigh = true
}
if r > s {
divergedLow = true
}
randID [ x ] = r
}
}
if ! divergedLow {
if ! divergedHigh { // start == end
return storj . NodeID { } , errs . New ( "Random id range was invalid" )
} else if randID [ len ( randID ) - 1 ] == start [ len ( randID ) - 1 ] { // start == randID
randID [ len ( randID ) - 1 ] = start [ len ( randID ) - 1 ] + 1
}
}
return randID , nil
}
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// timeTrack tracks how long a function ran for
func ( k * Kademlia ) timeTrack ( start time . Time , name string ) {
elapsed := time . Since ( start )
k . log . Debug ( "" , zap . Stringer ( k . routingTable . self . Type . String ( ) , k . routingTable . self . Id ) , zap . Duration ( name , elapsed ) )
}