mirror of
https://github.com/cwinfo/yggdrasil-go.git
synced 2024-12-29 19:25:39 +00:00
414 lines
12 KiB
Go
414 lines
12 KiB
Go
package yggdrasil
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import (
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"encoding/hex"
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"errors"
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"fmt"
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"io"
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"net"
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"net/url"
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"strings"
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"sync"
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//"sync/atomic"
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"time"
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"github.com/yggdrasil-network/yggdrasil-go/src/address"
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"github.com/yggdrasil-network/yggdrasil-go/src/crypto"
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"github.com/yggdrasil-network/yggdrasil-go/src/util"
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)
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type link struct {
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core *Core
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reconfigure chan chan error
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mutex sync.RWMutex // protects interfaces below
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interfaces map[linkInfo]*linkInterface
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tcp tcp // TCP interface support
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// TODO timeout (to remove from switch), read from config.ReadTimeout
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}
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type linkInfo struct {
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box crypto.BoxPubKey // Their encryption key
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sig crypto.SigPubKey // Their signing key
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linkType string // Type of link, e.g. TCP, AWDL
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local string // Local name or address
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remote string // Remote name or address
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}
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type linkInterfaceMsgIO interface {
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readMsg() ([]byte, error)
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writeMsg([]byte) (int, error)
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close() error
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// These are temporary workarounds to stream semantics
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_sendMetaBytes([]byte) error
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_recvMetaBytes() ([]byte, error)
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}
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type linkInterface struct {
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name string
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link *link
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peer *peer
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msgIO linkInterfaceMsgIO
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info linkInfo
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incoming bool
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force bool
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closed chan struct{}
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}
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func (l *link) init(c *Core) error {
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l.core = c
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l.mutex.Lock()
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l.interfaces = make(map[linkInfo]*linkInterface)
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l.reconfigure = make(chan chan error)
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l.mutex.Unlock()
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if err := l.tcp.init(l); err != nil {
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c.log.Errorln("Failed to start TCP interface")
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return err
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}
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go func() {
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for {
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e := <-l.reconfigure
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tcpresponse := make(chan error)
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l.tcp.reconfigure <- tcpresponse
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if err := <-tcpresponse; err != nil {
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e <- err
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continue
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}
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e <- nil
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}
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}()
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return nil
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}
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func (l *link) call(uri string, sintf string) error {
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u, err := url.Parse(uri)
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if err != nil {
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return err
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}
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pathtokens := strings.Split(strings.Trim(u.Path, "/"), "/")
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switch u.Scheme {
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case "tcp":
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l.tcp.call(u.Host, nil, sintf)
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case "socks":
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l.tcp.call(pathtokens[0], u.Host, sintf)
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default:
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return errors.New("unknown call scheme: " + u.Scheme)
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}
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return nil
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}
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func (l *link) listen(uri string) error {
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u, err := url.Parse(uri)
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if err != nil {
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return err
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}
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switch u.Scheme {
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case "tcp":
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_, err := l.tcp.listen(u.Host)
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return err
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default:
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return errors.New("unknown listen scheme: " + u.Scheme)
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}
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}
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func (l *link) create(msgIO linkInterfaceMsgIO, name, linkType, local, remote string, incoming, force bool) (*linkInterface, error) {
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// Technically anything unique would work for names, but lets pick something human readable, just for debugging
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intf := linkInterface{
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name: name,
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link: l,
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msgIO: msgIO,
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info: linkInfo{
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linkType: linkType,
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local: local,
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remote: remote,
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},
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incoming: incoming,
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force: force,
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}
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return &intf, nil
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}
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func (intf *linkInterface) handler() error {
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// TODO split some of this into shorter functions, so it's easier to read, and for the FIXME duplicate peer issue mentioned later
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myLinkPub, myLinkPriv := crypto.NewBoxKeys()
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meta := version_getBaseMetadata()
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meta.box = intf.link.core.boxPub
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meta.sig = intf.link.core.sigPub
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meta.link = *myLinkPub
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metaBytes := meta.encode()
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// TODO timeouts on send/recv (goroutine for send/recv, channel select w/ timer)
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var err error
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if !util.FuncTimeout(func() { err = intf.msgIO._sendMetaBytes(metaBytes) }, 30*time.Second) {
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return errors.New("timeout on metadata send")
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}
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if err != nil {
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return err
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}
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if !util.FuncTimeout(func() { metaBytes, err = intf.msgIO._recvMetaBytes() }, 30*time.Second) {
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return errors.New("timeout on metadata recv")
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}
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if err != nil {
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return err
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}
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meta = version_metadata{}
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if !meta.decode(metaBytes) || !meta.check() {
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return errors.New("failed to decode metadata")
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}
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base := version_getBaseMetadata()
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if meta.ver > base.ver || meta.ver == base.ver && meta.minorVer > base.minorVer {
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intf.link.core.log.Errorln("Failed to connect to node: " + intf.name + " version: " + fmt.Sprintf("%d.%d", meta.ver, meta.minorVer))
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return errors.New("failed to connect: wrong version")
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}
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// Check if we're authorized to connect to this key / IP
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if intf.incoming && !intf.force && !intf.link.core.peers.isAllowedEncryptionPublicKey(&meta.box) {
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intf.link.core.log.Warnf("%s connection from %s forbidden: AllowedEncryptionPublicKeys does not contain key %s",
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strings.ToUpper(intf.info.linkType), intf.info.remote, hex.EncodeToString(meta.box[:]))
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intf.msgIO.close()
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return nil
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}
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// Check if we already have a link to this node
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intf.info.box = meta.box
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intf.info.sig = meta.sig
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intf.link.mutex.Lock()
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if oldIntf, isIn := intf.link.interfaces[intf.info]; isIn {
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intf.link.mutex.Unlock()
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// FIXME we should really return an error and let the caller block instead
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// That lets them do things like close connections on its own, avoid printing a connection message in the first place, etc.
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intf.link.core.log.Debugln("DEBUG: found existing interface for", intf.name)
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intf.msgIO.close()
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<-oldIntf.closed
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return nil
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} else {
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intf.closed = make(chan struct{})
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intf.link.interfaces[intf.info] = intf
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defer func() {
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intf.link.mutex.Lock()
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delete(intf.link.interfaces, intf.info)
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intf.link.mutex.Unlock()
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close(intf.closed)
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}()
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intf.link.core.log.Debugln("DEBUG: registered interface for", intf.name)
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}
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intf.link.mutex.Unlock()
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// Create peer
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shared := crypto.GetSharedKey(myLinkPriv, &meta.link)
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intf.peer = intf.link.core.peers.newPeer(&meta.box, &meta.sig, shared, intf, func() { intf.msgIO.close() })
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if intf.peer == nil {
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return errors.New("failed to create peer")
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}
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defer func() {
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// More cleanup can go here
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intf.link.core.peers.removePeer(intf.peer.port)
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}()
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// Finish setting up the peer struct
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out := make(chan []byte, 1)
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defer close(out)
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intf.peer.out = func(msg []byte) {
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defer func() { recover() }()
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out <- msg
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}
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intf.peer.linkOut = make(chan []byte, 1)
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themAddr := address.AddrForNodeID(crypto.GetNodeID(&intf.info.box))
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themAddrString := net.IP(themAddr[:]).String()
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themString := fmt.Sprintf("%s@%s", themAddrString, intf.info.remote)
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intf.link.core.log.Infof("Connected %s: %s, source %s",
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strings.ToUpper(intf.info.linkType), themString, intf.info.local)
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// Start the link loop
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go intf.peer.linkLoop()
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// Start the writer
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signalReady := make(chan struct{}, 1)
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signalSent := make(chan bool, 1)
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sendAck := make(chan struct{}, 1)
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sendBlocked := time.NewTimer(time.Second)
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defer util.TimerStop(sendBlocked)
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util.TimerStop(sendBlocked)
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go func() {
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defer close(signalReady)
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defer close(signalSent)
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interval := 4 * time.Second
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tcpTimer := time.NewTimer(interval) // used for backwards compat with old tcp
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defer util.TimerStop(tcpTimer)
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send := func(bs []byte) {
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sendBlocked.Reset(time.Second)
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intf.msgIO.writeMsg(bs)
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util.TimerStop(sendBlocked)
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select {
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case signalSent <- len(bs) > 0:
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default:
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}
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}
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for {
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// First try to send any link protocol traffic
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select {
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case msg := <-intf.peer.linkOut:
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send(msg)
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continue
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default:
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}
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// No protocol traffic to send, so reset the timer
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util.TimerStop(tcpTimer)
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tcpTimer.Reset(interval)
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// Now block until something is ready or the timer triggers keepalive traffic
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select {
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case <-tcpTimer.C:
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intf.link.core.log.Tracef("Sending (legacy) keep-alive to %s: %s, source %s",
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strings.ToUpper(intf.info.linkType), themString, intf.info.local)
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send(nil)
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case <-sendAck:
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intf.link.core.log.Tracef("Sending ack to %s: %s, source %s",
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strings.ToUpper(intf.info.linkType), themString, intf.info.local)
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send(nil)
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case msg := <-intf.peer.linkOut:
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send(msg)
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case msg, ok := <-out:
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if !ok {
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return
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}
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send(msg)
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util.PutBytes(msg)
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select {
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case signalReady <- struct{}{}:
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default:
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}
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//intf.link.core.log.Tracef("Sending packet to %s: %s, source %s",
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// strings.ToUpper(intf.info.linkType), themString, intf.info.local)
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}
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}
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}()
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//intf.link.core.switchTable.idleIn <- intf.peer.port // notify switch that we're idle
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// Used to enable/disable activity in the switch
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signalAlive := make(chan bool, 1) // True = real packet, false = keep-alive
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defer close(signalAlive)
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ret := make(chan error, 1) // How we signal the return value when multiple goroutines are involved
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go func() {
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var isAlive bool
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var isReady bool
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var sendTimerRunning bool
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var recvTimerRunning bool
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recvTime := 6 * time.Second // TODO set to ReadTimeout from the config, reset if it gets changed
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closeTime := 2 * switch_timeout // TODO or maybe this makes more sense for ReadTimeout?...
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sendTime := time.Second
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sendTimer := time.NewTimer(sendTime)
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defer util.TimerStop(sendTimer)
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recvTimer := time.NewTimer(recvTime)
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defer util.TimerStop(recvTimer)
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closeTimer := time.NewTimer(closeTime)
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defer util.TimerStop(closeTimer)
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for {
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//intf.link.core.log.Debugf("State of %s: %s, source %s :: isAlive %t isReady %t sendTimerRunning %t recvTimerRunning %t",
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// strings.ToUpper(intf.info.linkType), themString, intf.info.local,
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// isAlive, isReady, sendTimerRunning, recvTimerRunning)
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select {
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case gotMsg, ok := <-signalAlive:
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if !ok {
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return
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}
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util.TimerStop(closeTimer)
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closeTimer.Reset(closeTime)
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util.TimerStop(recvTimer)
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recvTimerRunning = false
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isAlive = true
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if !isReady {
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// (Re-)enable in the switch
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intf.link.core.switchTable.idleIn <- intf.peer.port
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isReady = true
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}
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if gotMsg && !sendTimerRunning {
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// We got a message
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// Start a timer, if it expires then send a 0-sized ack to let them know we're alive
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util.TimerStop(sendTimer)
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sendTimer.Reset(sendTime)
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sendTimerRunning = true
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}
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if !gotMsg {
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intf.link.core.log.Tracef("Received ack from %s: %s, source %s",
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strings.ToUpper(intf.info.linkType), themString, intf.info.local)
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}
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case sentMsg, ok := <-signalSent:
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// Stop any running ack timer
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if !ok {
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return
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}
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util.TimerStop(sendTimer)
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sendTimerRunning = false
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if sentMsg && !recvTimerRunning {
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// We sent a message
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// Start a timer, if it expires and we haven't gotten any return traffic (including a 0-sized ack), then assume there's a problem
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util.TimerStop(recvTimer)
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recvTimer.Reset(recvTime)
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recvTimerRunning = true
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}
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case _, ok := <-signalReady:
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if !ok {
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return
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}
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if !isAlive {
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// Disable in the switch
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isReady = false
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} else {
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// Keep enabled in the switch
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intf.link.core.switchTable.idleIn <- intf.peer.port
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isReady = true
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}
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case <-sendBlocked.C:
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// We blocked while trying to send something
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isReady = false
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intf.link.core.switchTable.blockPeer(intf.peer.port)
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case <-sendTimer.C:
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// We haven't sent anything, so signal a send of a 0 packet to let them know we're alive
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select {
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case sendAck <- struct{}{}:
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default:
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}
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case <-recvTimer.C:
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// We haven't received anything, so assume there's a problem and don't return this node to the switch until they start responding
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isAlive = false
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intf.link.core.switchTable.blockPeer(intf.peer.port)
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case <-closeTimer.C:
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// We haven't received anything in a really long time, so things have died at the switch level and then some...
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// Just close the connection at this point...
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select {
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case ret <- errors.New("timeout"):
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default:
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}
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intf.msgIO.close()
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}
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}
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}()
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// Run reader loop
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for {
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msg, err := intf.msgIO.readMsg()
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if len(msg) > 0 {
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intf.peer.handlePacket(msg)
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}
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if err != nil {
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if err != io.EOF {
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select {
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case ret <- err:
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default:
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}
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}
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break
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}
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select {
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case signalAlive <- len(msg) > 0:
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default:
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}
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}
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////////////////////////////////////////////////////////////////////////////////
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// Remember to set `err` to something useful before returning
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select {
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case err = <-ret:
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intf.link.core.log.Infof("Disconnected %s: %s, source %s; error: %s",
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strings.ToUpper(intf.info.linkType), themString, intf.info.local, err)
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default:
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err = nil
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intf.link.core.log.Infof("Disconnected %s: %s, source %s",
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strings.ToUpper(intf.info.linkType), themString, intf.info.local)
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}
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return err
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}
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