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// +build debug
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package yggdrasil
// These are functions that should not exist
// They are (or were) used during development, to work around missing features
// They're also used to configure things from the outside
// It would be better to define and export a few config functions elsewhere
// Or define some remote API and call it to send/request configuration info
import _ "golang.org/x/net/ipv6" // TODO put this somewhere better
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//import "golang.org/x/net/proxy"
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import "fmt"
import "net"
import "log"
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import "regexp"
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import "encoding/hex"
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import _ "net/http/pprof"
import "net/http"
import "runtime"
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import "os"
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import "github.com/yggdrasil-network/yggdrasil-go/src/address"
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import "github.com/yggdrasil-network/yggdrasil-go/src/config"
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import "github.com/yggdrasil-network/yggdrasil-go/src/crypto"
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import "github.com/yggdrasil-network/yggdrasil-go/src/defaults"
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// Start the profiler in debug builds, if the required environment variable is set.
func init ( ) {
envVarName := "PPROFLISTEN"
hostPort := os . Getenv ( envVarName )
switch {
case hostPort == "" :
fmt . Printf ( "DEBUG: %s not set, profiler not started.\n" , envVarName )
default :
fmt . Printf ( "DEBUG: Starting pprof on %s\n" , hostPort )
go func ( ) { fmt . Println ( http . ListenAndServe ( hostPort , nil ) ) } ( )
}
}
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// Starts the function profiler. This is only supported when built with
// '-tags build'.
func StartProfiler ( log * log . Logger ) error {
runtime . SetBlockProfileRate ( 1 )
go func ( ) { log . Println ( http . ListenAndServe ( "localhost:6060" , nil ) ) } ( )
return nil
}
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// This function is only called by the simulator to set up a node with random
// keys. It should not be used and may be removed in the future.
func ( c * Core ) Init ( ) {
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bpub , bpriv := crypto . NewBoxKeys ( )
spub , spriv := crypto . NewSigKeys ( )
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hbpub := hex . EncodeToString ( bpub [ : ] )
hbpriv := hex . EncodeToString ( bpriv [ : ] )
hspub := hex . EncodeToString ( spub [ : ] )
hspriv := hex . EncodeToString ( spriv [ : ] )
c . config = config . NodeConfig {
EncryptionPublicKey : hbpub ,
EncryptionPrivateKey : hbpriv ,
SigningPublicKey : hspub ,
SigningPrivateKey : hspriv ,
}
c . init ( /*bpub, bpriv, spub, spriv*/ )
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c . switchTable . start ( )
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c . router . start ( )
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}
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////////////////////////////////////////////////////////////////////////////////
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// Core
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func ( c * Core ) DEBUG_getSigningPublicKey ( ) crypto . SigPubKey {
return ( crypto . SigPubKey ) ( c . sigPub )
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}
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func ( c * Core ) DEBUG_getEncryptionPublicKey ( ) crypto . BoxPubKey {
return ( crypto . BoxPubKey ) ( c . boxPub )
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}
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func ( c * Core ) DEBUG_getSend ( ) chan <- [ ] byte {
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return c . router . tun . send
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}
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func ( c * Core ) DEBUG_getRecv ( ) <- chan [ ] byte {
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return c . router . tun . recv
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}
// Peer
func ( c * Core ) DEBUG_getPeers ( ) * peers {
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return & c . peers
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}
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func ( ps * peers ) DEBUG_newPeer ( box crypto . BoxPubKey , sig crypto . SigPubKey , link crypto . BoxSharedKey ) * peer {
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//in <-chan []byte,
//out chan<- []byte) *peer {
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return ps . newPeer ( & box , & sig , & link , "(simulator)" ) //, in, out)
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}
/ *
func ( ps * peers ) DEBUG_startPeers ( ) {
ps . mutex . RLock ( )
defer ps . mutex . RUnlock ( )
for _ , p := range ps . ports {
if p == nil { continue }
go p . MainLoop ( )
}
}
* /
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func ( ps * peers ) DEBUG_hasPeer ( key crypto . SigPubKey ) bool {
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ports := ps . ports . Load ( ) . ( map [ switchPort ] * peer )
for _ , p := range ports {
if p == nil {
continue
}
if p . sig == key {
return true
}
}
return false
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}
func ( ps * peers ) DEBUG_getPorts ( ) map [ switchPort ] * peer {
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ports := ps . ports . Load ( ) . ( map [ switchPort ] * peer )
newPeers := make ( map [ switchPort ] * peer )
for port , p := range ports {
newPeers [ port ] = p
}
return newPeers
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}
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func ( p * peer ) DEBUG_getSigKey ( ) crypto . SigPubKey {
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return p . sig
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}
func ( p * peer ) DEEBUG_getPort ( ) switchPort {
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return p . port
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}
// Router
func ( c * Core ) DEBUG_getSwitchTable ( ) * switchTable {
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return & c . switchTable
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}
func ( c * Core ) DEBUG_getLocator ( ) switchLocator {
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return c . switchTable . getLocator ( )
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}
func ( l * switchLocator ) DEBUG_getCoords ( ) [ ] byte {
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return l . getCoords ( )
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}
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func ( c * Core ) DEBUG_switchLookup ( dest [ ] byte ) switchPort {
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return c . switchTable . DEBUG_lookup ( dest )
}
// This does the switch layer lookups that decide how to route traffic.
// Traffic uses greedy routing in a metric space, where the metric distance between nodes is equal to the distance between them on the tree.
// Traffic must be routed to a node that is closer to the destination via the metric space distance.
// In the event that two nodes are equally close, it gets routed to the one with the longest uptime (due to the order that things are iterated over).
// The size of the outgoing packet queue is added to a node's tree distance when the cost of forwarding to a node, subject to the constraint that the real tree distance puts them closer to the destination than ourself.
// Doing so adds a limited form of backpressure routing, based on local information, which allows us to forward traffic around *local* bottlenecks, provided that another greedy path exists.
func ( t * switchTable ) DEBUG_lookup ( dest [ ] byte ) switchPort {
table := t . getTable ( )
myDist := table . self . dist ( dest )
if myDist == 0 {
return 0
}
// cost is in units of (expected distance) + (expected queue size), where expected distance is used as an approximation of the minimum backpressure gradient needed for packets to flow
ports := t . core . peers . getPorts ( )
var best switchPort
bestCost := int64 ( ^ uint64 ( 0 ) >> 1 )
for _ , info := range table . elems {
dist := info . locator . dist ( dest )
if ! ( dist < myDist ) {
continue
}
//p, isIn := ports[info.port]
_ , isIn := ports [ info . port ]
if ! isIn {
continue
}
cost := int64 ( dist ) // + p.getQueueSize()
if cost < bestCost {
best = info . port
bestCost = cost
}
}
return best
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}
/ *
func ( t * switchTable ) DEBUG_isDirty ( ) bool {
//data := t.data.Load().(*tabledata)
t . mutex . RLock ( )
defer t . mutex . RUnlock ( )
data := t . data
return data . dirty
}
* /
func ( t * switchTable ) DEBUG_dumpTable ( ) {
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//data := t.data.Load().(*tabledata)
t . mutex . RLock ( )
defer t . mutex . RUnlock ( )
data := t . data
for _ , peer := range data . peers {
//fmt.Println("DUMPTABLE:", t.treeID, peer.treeID, peer.port,
// peer.locator.Root, peer.coords,
// peer.reverse.Root, peer.reverse.Coords, peer.forward)
fmt . Println ( "DUMPTABLE:" , t . key , peer . key , peer . locator . coords , peer . port /*, peer.forward*/ )
}
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}
func ( t * switchTable ) DEBUG_getReversePort ( port switchPort ) switchPort {
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// Returns Port(0) if it cannot get the reverse peer for any reason
//data := t.data.Load().(*tabledata)
t . mutex . RLock ( )
defer t . mutex . RUnlock ( )
data := t . data
if port >= switchPort ( len ( data . peers ) ) {
return switchPort ( 0 )
}
pinfo := data . peers [ port ]
if len ( pinfo . locator . coords ) < 1 {
return switchPort ( 0 )
}
return pinfo . locator . coords [ len ( pinfo . locator . coords ) - 1 ]
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}
// Wire
func DEBUG_wire_encode_coords ( coords [ ] byte ) [ ] byte {
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return wire_encode_coords ( coords )
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}
// DHT, via core
func ( c * Core ) DEBUG_getDHTSize ( ) int {
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var total int
c . router . doAdmin ( func ( ) {
total = len ( c . dht . table )
} )
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return total
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}
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// TUN defaults
func ( c * Core ) DEBUG_GetTUNDefaultIfName ( ) string {
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return defaults . GetDefaults ( ) . DefaultIfName
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}
func ( c * Core ) DEBUG_GetTUNDefaultIfMTU ( ) int {
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return defaults . GetDefaults ( ) . DefaultIfMTU
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}
func ( c * Core ) DEBUG_GetTUNDefaultIfTAPMode ( ) bool {
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return defaults . GetDefaults ( ) . DefaultIfTAPMode
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}
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// udpInterface
// FIXME udpInterface isn't exported
// So debug functions need to work differently...
/ *
func ( c * Core ) DEBUG_setupLoopbackUDPInterface ( ) {
iface := udpInterface { }
iface . init ( c , "[::1]:0" )
c . ifaces = append ( c . ifaces [ : 0 ] , & iface )
}
* /
/ *
func ( c * Core ) DEBUG_getLoopbackAddr ( ) net . Addr {
iface := c . ifaces [ 0 ]
return iface . sock . LocalAddr ( )
}
* /
/ *
func ( c * Core ) DEBUG_addLoopbackPeer ( addr * net . UDPAddr ,
in ( chan <- [ ] byte ) ,
out ( <- chan [ ] byte ) ) {
iface := c . ifaces [ 0 ]
iface . addPeer ( addr , in , out )
}
* /
/ *
func ( c * Core ) DEBUG_startLoopbackUDPInterface ( ) {
iface := c . ifaces [ 0 ]
go iface . reader ( )
for addr , chs := range iface . peers {
udpAddr , err := net . ResolveUDPAddr ( "udp6" , addr )
if err != nil { panic ( err ) }
go iface . writer ( udpAddr , chs . out )
}
}
* /
////////////////////////////////////////////////////////////////////////////////
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func ( c * Core ) DEBUG_getAddr ( ) * address . Address {
return address . AddrForNodeID ( & c . dht . nodeID )
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}
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func ( c * Core ) DEBUG_startTun ( ifname string , iftapmode bool ) {
c . DEBUG_startTunWithMTU ( ifname , iftapmode , 1280 )
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}
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func ( c * Core ) DEBUG_startTunWithMTU ( ifname string , iftapmode bool , mtu int ) {
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addr := c . DEBUG_getAddr ( )
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straddr := fmt . Sprintf ( "%s/%v" , net . IP ( addr [ : ] ) . String ( ) , 8 * len ( address . GetPrefix ( ) ) )
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if ifname != "none" {
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err := c . router . tun . setup ( ifname , iftapmode , straddr , mtu )
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if err != nil {
panic ( err )
}
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c . log . Println ( "Setup TUN/TAP:" , c . router . tun . iface . Name ( ) , straddr )
go func ( ) { panic ( c . router . tun . read ( ) ) } ( )
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}
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go func ( ) { panic ( c . router . tun . write ( ) ) } ( )
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}
func ( c * Core ) DEBUG_stopTun ( ) {
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c . router . tun . close ( )
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}
////////////////////////////////////////////////////////////////////////////////
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func ( c * Core ) DEBUG_newBoxKeys ( ) ( * crypto . BoxPubKey , * crypto . BoxPrivKey ) {
return crypto . NewBoxKeys ( )
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}
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func ( c * Core ) DEBUG_getSharedKey ( myPrivKey * crypto . BoxPrivKey , othersPubKey * crypto . BoxPubKey ) * crypto . BoxSharedKey {
return crypto . GetSharedKey ( myPrivKey , othersPubKey )
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}
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func ( c * Core ) DEBUG_newSigKeys ( ) ( * crypto . SigPubKey , * crypto . SigPrivKey ) {
return crypto . NewSigKeys ( )
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}
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func ( c * Core ) DEBUG_getNodeID ( pub * crypto . BoxPubKey ) * crypto . NodeID {
return crypto . GetNodeID ( pub )
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}
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func ( c * Core ) DEBUG_getTreeID ( pub * crypto . SigPubKey ) * crypto . TreeID {
return crypto . GetTreeID ( pub )
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}
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func ( c * Core ) DEBUG_addrForNodeID ( nodeID * crypto . NodeID ) string {
return net . IP ( address . AddrForNodeID ( nodeID ) [ : ] ) . String ( )
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}
func ( c * Core ) DEBUG_init ( bpub [ ] byte ,
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bpriv [ ] byte ,
spub [ ] byte ,
spriv [ ] byte ) {
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/ * var boxPub crypto . BoxPubKey
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var boxPriv crypto . BoxPrivKey
var sigPub crypto . SigPubKey
var sigPriv crypto . SigPrivKey
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copy ( boxPub [ : ] , bpub )
copy ( boxPriv [ : ] , bpriv )
copy ( sigPub [ : ] , spub )
copy ( sigPriv [ : ] , spriv )
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c . init ( & boxPub , & boxPriv , & sigPub , & sigPriv ) * /
hbpub := hex . EncodeToString ( bpub [ : ] )
hbpriv := hex . EncodeToString ( bpriv [ : ] )
hspub := hex . EncodeToString ( spub [ : ] )
hspriv := hex . EncodeToString ( spriv [ : ] )
c . config = config . NodeConfig {
EncryptionPublicKey : hbpub ,
EncryptionPrivateKey : hbpriv ,
SigningPublicKey : hspub ,
SigningPrivateKey : hspriv ,
}
c . init ( /*bpub, bpriv, spub, spriv*/ )
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if err := c . router . start ( ) ; err != nil {
panic ( err )
}
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}
////////////////////////////////////////////////////////////////////////////////
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/ *
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func ( c * Core ) DEBUG_setupAndStartGlobalUDPInterface ( addrport string ) {
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if err := c . udp . init ( c , addrport ) ; err != nil {
c . log . Println ( "Failed to start UDP interface:" , err )
panic ( err )
}
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}
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func ( c * Core ) DEBUG_getGlobalUDPAddr ( ) * net . UDPAddr {
return c . udp . sock . LocalAddr ( ) . ( * net . UDPAddr )
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}
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func ( c * Core ) DEBUG_maybeSendUDPKeys ( saddr string ) {
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udpAddr , err := net . ResolveUDPAddr ( "udp" , saddr )
if err != nil {
panic ( err )
}
var addr connAddr
addr . fromUDPAddr ( udpAddr )
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c . udp . mutex . RLock ( )
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_ , isIn := c . udp . conns [ addr ]
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c . udp . mutex . RUnlock ( )
if ! isIn {
c . udp . sendKeys ( addr )
}
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}
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* /
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////////////////////////////////////////////////////////////////////////////////
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func ( c * Core ) DEBUG_addPeer ( addr string ) {
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err := c . admin . addPeer ( addr , "" )
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if err != nil {
panic ( err )
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}
}
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/ *
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func ( c * Core ) DEBUG_addSOCKSConn ( socksaddr , peeraddr string ) {
go func ( ) {
dialer , err := proxy . SOCKS5 ( "tcp" , socksaddr , nil , proxy . Direct )
if err == nil {
conn , err := dialer . Dial ( "tcp" , peeraddr )
if err == nil {
c . tcp . callWithConn ( & wrappedConn {
c : conn ,
raddr : & wrappedAddr {
network : "tcp" ,
addr : peeraddr ,
} ,
} )
}
}
} ( )
}
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* /
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//*
func ( c * Core ) DEBUG_setupAndStartGlobalTCPInterface ( addrport string ) {
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c . config . Listen = addrport
if err := c . tcp . init ( c /*, addrport, 0*/ ) ; err != nil {
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c . log . Println ( "Failed to start TCP interface:" , err )
panic ( err )
}
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}
func ( c * Core ) DEBUG_getGlobalTCPAddr ( ) * net . TCPAddr {
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return c . tcp . serv . Addr ( ) . ( * net . TCPAddr )
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}
func ( c * Core ) DEBUG_addTCPConn ( saddr string ) {
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c . tcp . call ( saddr , nil , "" )
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}
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//*/
/ *
func ( c * Core ) DEBUG_startSelfPeer ( ) {
c . Peers . mutex . RLock ( )
defer c . Peers . mutex . RUnlock ( )
p := c . Peers . ports [ 0 ]
go p . MainLoop ( )
}
* /
////////////////////////////////////////////////////////////////////////////////
/ *
func ( c * Core ) DEBUG_setupAndStartGlobalKCPInterface ( addrport string ) {
iface := kcpInterface { }
iface . init ( c , addrport )
c . kcp = & iface
}
func ( c * Core ) DEBUG_getGlobalKCPAddr ( ) net . Addr {
return c . kcp . serv . Addr ( )
}
func ( c * Core ) DEBUG_addKCPConn ( saddr string ) {
c . kcp . call ( saddr )
}
* /
////////////////////////////////////////////////////////////////////////////////
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func ( c * Core ) DEBUG_setupAndStartAdminInterface ( addrport string ) {
a := admin { }
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c . config . AdminListen = addrport
a . init ( c /*, addrport*/ )
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c . admin = a
}
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func ( c * Core ) DEBUG_setupAndStartMulticastInterface ( ) {
m := multicast { }
m . init ( c )
c . multicast = m
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m . start ( )
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}
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////////////////////////////////////////////////////////////////////////////////
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func ( c * Core ) DEBUG_setLogger ( log * log . Logger ) {
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c . log = log
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}
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func ( c * Core ) DEBUG_setIfceExpr ( expr * regexp . Regexp ) {
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c . ifceExpr = append ( c . ifceExpr , expr )
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}
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func ( c * Core ) DEBUG_addAllowedEncryptionPublicKey ( boxStr string ) {
err := c . admin . addAllowedEncryptionPublicKey ( boxStr )
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if err != nil {
panic ( err )
}
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}
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////////////////////////////////////////////////////////////////////////////////
func DEBUG_simLinkPeers ( p , q * peer ) {
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// Sets q.out() to point to p and starts p.linkLoop()
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goWorkers := func ( source , dest * peer ) {
source . linkOut = make ( chan [ ] byte , 1 )
send := make ( chan [ ] byte , 1 )
source . out = func ( bs [ ] byte ) {
send <- bs
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}
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go source . linkLoop ( )
go func ( ) {
var packets [ ] [ ] byte
for {
select {
case packet := <- source . linkOut :
packets = append ( packets , packet )
continue
case packet := <- send :
packets = append ( packets , packet )
source . core . switchTable . idleIn <- source . port
continue
default :
}
if len ( packets ) > 0 {
dest . handlePacket ( packets [ 0 ] )
packets = packets [ 1 : ]
continue
}
select {
case packet := <- source . linkOut :
packets = append ( packets , packet )
case packet := <- send :
packets = append ( packets , packet )
source . core . switchTable . idleIn <- source . port
}
}
} ( )
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}
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goWorkers ( p , q )
goWorkers ( q , p )
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p . core . switchTable . idleIn <- p . port
q . core . switchTable . idleIn <- q . port
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}
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func ( c * Core ) DEBUG_simFixMTU ( ) {
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c . router . tun . mtu = 65535
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}
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////////////////////////////////////////////////////////////////////////////////
func Util_testAddrIDMask ( ) {
for idx := 0 ; idx < 16 ; idx ++ {
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var orig crypto . NodeID
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orig [ 8 ] = 42
for bidx := 0 ; bidx < idx ; bidx ++ {
orig [ bidx / 8 ] |= ( 0x80 >> uint8 ( bidx % 8 ) )
}
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addr := address . AddrForNodeID ( & orig )
nid , mask := addr . GetNodeIDandMask ( )
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for b := 0 ; b < len ( mask ) ; b ++ {
nid [ b ] &= mask [ b ]
orig [ b ] &= mask [ b ]
}
if * nid != orig {
fmt . Println ( orig )
fmt . Println ( * addr )
fmt . Println ( * nid )
fmt . Println ( * mask )
panic ( idx )
}
}
}