mirror of
https://github.com/yggdrasil-network/yggdrasil-go.git
synced 2024-11-27 12:05:23 +00:00
copy/paste old flowkey logic into a util function, add a struct of key and packet, make WriteNoCopy accept this instead of a slice
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parent
6cb0ed91ad
commit
790524bd1c
@ -96,8 +96,11 @@ func (s *tunConn) writer() error {
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if !ok {
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return errors.New("send closed")
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}
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// TODO write timeout and close
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if err := s.conn.WriteNoCopy(bs); err != nil {
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msg := yggdrasil.FlowKeyMessage{
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FlowKey: util.GetFlowKey(bs),
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Message: bs,
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}
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if err := s.conn.WriteNoCopy(msg); err != nil {
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if e, eok := err.(yggdrasil.ConnError); !eok {
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if e.Closed() {
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s.tun.log.Debugln(s.conn.String(), "TUN/TAP generic write debug:", err)
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@ -106,3 +106,41 @@ func DecodeCoordString(in string) (out []uint64) {
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}
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return out
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}
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// GetFlowLabel takes an IP packet as an argument and returns some information about the traffic flow.
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// For IPv4 packets, this is derived from the source and destination protocol and port numbers.
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// For IPv6 packets, this is derived from the FlowLabel field of the packet if this was set, otherwise it's handled like IPv4.
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// The FlowKey is then used internally by Yggdrasil for congestion control.
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func GetFlowKey(bs []byte) uint64 {
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// Work out the flowkey - this is used to determine which switch queue
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// traffic will be pushed to in the event of congestion
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var flowkey uint64
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// Get the IP protocol version from the packet
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switch bs[0] & 0xf0 {
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case 0x40: // IPv4 packet
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// Check the packet meets minimum UDP packet length
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if len(bs) >= 24 {
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// Is the protocol TCP, UDP or SCTP?
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if bs[9] == 0x06 || bs[9] == 0x11 || bs[9] == 0x84 {
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ihl := bs[0] & 0x0f * 4 // Header length
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flowkey = uint64(bs[9])<<32 /* proto */ |
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uint64(bs[ihl+0])<<24 | uint64(bs[ihl+1])<<16 /* sport */ |
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uint64(bs[ihl+2])<<8 | uint64(bs[ihl+3]) /* dport */
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}
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}
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case 0x60: // IPv6 packet
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// Check if the flowlabel was specified in the packet header
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flowkey = uint64(bs[1]&0x0f)<<16 | uint64(bs[2])<<8 | uint64(bs[3])
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// If the flowlabel isn't present, make protokey from proto | sport | dport
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// if the packet meets minimum UDP packet length
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if flowkey == 0 && len(bs) >= 48 {
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// Is the protocol TCP, UDP or SCTP?
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if bs[6] == 0x06 || bs[6] == 0x11 || bs[6] == 0x84 {
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flowkey = uint64(bs[6])<<32 /* proto */ |
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uint64(bs[40])<<24 | uint64(bs[41])<<16 /* sport */ |
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uint64(bs[42])<<8 | uint64(bs[43]) /* dport */
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}
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}
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}
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return flowkey
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}
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@ -183,11 +183,11 @@ func (c *Conn) Read(b []byte) (int, error) {
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}
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// Used internally by Write, the caller must not reuse the argument bytes when no error occurs
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func (c *Conn) WriteNoCopy(bs []byte) error {
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func (c *Conn) WriteNoCopy(msg FlowKeyMessage) error {
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var err error
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sessionFunc := func() {
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// Does the packet exceed the permitted size for the session?
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if uint16(len(bs)) > c.session.getMTU() {
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if uint16(len(msg.Message)) > c.session.getMTU() {
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err = ConnError{errors.New("packet too big"), true, false, false, int(c.session.getMTU())}
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return
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}
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@ -216,7 +216,7 @@ func (c *Conn) WriteNoCopy(bs []byte) error {
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} else {
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err = ConnError{errors.New("session closed"), false, false, true, 0}
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}
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case c.session.send <- bs:
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case c.session.send <- msg:
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}
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}
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return err
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@ -225,10 +225,10 @@ func (c *Conn) WriteNoCopy(bs []byte) error {
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// Implements net.Conn.Write
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func (c *Conn) Write(b []byte) (int, error) {
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written := len(b)
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bs := append(util.GetBytes(), b...)
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err := c.WriteNoCopy(bs)
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msg := FlowKeyMessage{Message: append(util.GetBytes(), b...)}
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err := c.WriteNoCopy(msg)
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if err != nil {
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util.PutBytes(bs)
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util.PutBytes(msg.Message)
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written = 0
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}
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return written, err
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@ -166,7 +166,7 @@ func (r *router) handleTraffic(packet []byte) {
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return
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}
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select {
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case sinfo.fromRouter <- &p:
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case sinfo.fromRouter <- p:
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case <-sinfo.cancel.Finished():
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util.PutBytes(p.Payload)
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}
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@ -18,39 +18,39 @@ import (
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// All the information we know about an active session.
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// This includes coords, permanent and ephemeral keys, handles and nonces, various sorts of timing information for timeout and maintenance, and some metadata for the admin API.
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type sessionInfo struct {
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mutex sync.Mutex // Protects all of the below, use it any time you read/chance the contents of a session
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core *Core //
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reconfigure chan chan error //
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theirAddr address.Address //
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theirSubnet address.Subnet //
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theirPermPub crypto.BoxPubKey //
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theirSesPub crypto.BoxPubKey //
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mySesPub crypto.BoxPubKey //
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mySesPriv crypto.BoxPrivKey //
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sharedSesKey crypto.BoxSharedKey // derived from session keys
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theirHandle crypto.Handle //
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myHandle crypto.Handle //
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theirNonce crypto.BoxNonce //
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theirNonceMask uint64 //
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myNonce crypto.BoxNonce //
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theirMTU uint16 //
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myMTU uint16 //
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wasMTUFixed bool // Was the MTU fixed by a receive error?
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timeOpened time.Time // Time the sessino was opened
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time time.Time // Time we last received a packet
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mtuTime time.Time // time myMTU was last changed
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pingTime time.Time // time the first ping was sent since the last received packet
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pingSend time.Time // time the last ping was sent
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coords []byte // coords of destination
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reset bool // reset if coords change
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tstamp int64 // ATOMIC - tstamp from their last session ping, replay attack mitigation
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bytesSent uint64 // Bytes of real traffic sent in this session
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bytesRecvd uint64 // Bytes of real traffic received in this session
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fromRouter chan *wire_trafficPacket // Received packets go here, picked up by the associated Conn
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init chan struct{} // Closed when the first session pong arrives, used to signal that the session is ready for initial use
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cancel util.Cancellation // Used to terminate workers
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recv chan []byte
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send chan []byte
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mutex sync.Mutex // Protects all of the below, use it any time you read/chance the contents of a session
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core *Core //
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reconfigure chan chan error //
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theirAddr address.Address //
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theirSubnet address.Subnet //
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theirPermPub crypto.BoxPubKey //
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theirSesPub crypto.BoxPubKey //
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mySesPub crypto.BoxPubKey //
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mySesPriv crypto.BoxPrivKey //
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sharedSesKey crypto.BoxSharedKey // derived from session keys
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theirHandle crypto.Handle //
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myHandle crypto.Handle //
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theirNonce crypto.BoxNonce //
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theirNonceMask uint64 //
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myNonce crypto.BoxNonce //
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theirMTU uint16 //
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myMTU uint16 //
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wasMTUFixed bool // Was the MTU fixed by a receive error?
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timeOpened time.Time // Time the sessino was opened
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time time.Time // Time we last received a packet
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mtuTime time.Time // time myMTU was last changed
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pingTime time.Time // time the first ping was sent since the last received packet
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pingSend time.Time // time the last ping was sent
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coords []byte // coords of destination
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reset bool // reset if coords change
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tstamp int64 // ATOMIC - tstamp from their last session ping, replay attack mitigation
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bytesSent uint64 // Bytes of real traffic sent in this session
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bytesRecvd uint64 // Bytes of real traffic received in this session
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init chan struct{} // Closed when the first session pong arrives, used to signal that the session is ready for initial use
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cancel util.Cancellation // Used to terminate workers
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fromRouter chan wire_trafficPacket // Received packets go here, to be decrypted by the session
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recv chan []byte // Decrypted packets go here, picked up by the associated Conn
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send chan FlowKeyMessage // Packets with optional flow key go here, to be encrypted and sent
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}
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func (sinfo *sessionInfo) doFunc(f func()) {
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@ -228,9 +228,9 @@ func (ss *sessions) createSession(theirPermKey *crypto.BoxPubKey) *sessionInfo {
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sinfo.myHandle = *crypto.NewHandle()
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sinfo.theirAddr = *address.AddrForNodeID(crypto.GetNodeID(&sinfo.theirPermPub))
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sinfo.theirSubnet = *address.SubnetForNodeID(crypto.GetNodeID(&sinfo.theirPermPub))
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sinfo.fromRouter = make(chan *wire_trafficPacket, 1)
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sinfo.fromRouter = make(chan wire_trafficPacket, 1)
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sinfo.recv = make(chan []byte, 32)
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sinfo.send = make(chan []byte, 32)
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sinfo.send = make(chan FlowKeyMessage, 32)
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ss.sinfos[sinfo.myHandle] = &sinfo
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ss.byTheirPerm[sinfo.theirPermPub] = &sinfo.myHandle
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go func() {
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@ -442,13 +442,18 @@ func (sinfo *sessionInfo) startWorkers() {
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go sinfo.sendWorker()
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}
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type FlowKeyMessage struct {
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FlowKey uint64
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Message []byte
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}
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func (sinfo *sessionInfo) recvWorker() {
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// TODO move theirNonce etc into a struct that gets stored here, passed in over a channel
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// Since there's no reason for anywhere else in the session code to need to *read* it...
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// Only needs to be updated from the outside if a ping resets it...
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// That would get rid of the need to take a mutex for the sessionFunc
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var callbacks []chan func()
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doRecv := func(p *wire_trafficPacket) {
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doRecv := func(p wire_trafficPacket) {
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var bs []byte
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var err error
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var k crypto.BoxSharedKey
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@ -524,16 +529,22 @@ func (sinfo *sessionInfo) sendWorker() {
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// TODO move info that this worker needs here, send updates via a channel
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// Otherwise we need to take a mutex to avoid races with update()
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var callbacks []chan func()
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doSend := func(bs []byte) {
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doSend := func(msg FlowKeyMessage) {
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var p wire_trafficPacket
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var k crypto.BoxSharedKey
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sessionFunc := func() {
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sinfo.bytesSent += uint64(len(bs))
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sinfo.bytesSent += uint64(len(msg.Message))
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p = wire_trafficPacket{
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Coords: append([]byte(nil), sinfo.coords...),
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Handle: sinfo.theirHandle,
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Nonce: sinfo.myNonce,
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}
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if msg.FlowKey != 0 {
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// Helps ensure that traffic from this flow ends up in a separate queue from other flows
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// The zero padding relies on the fact that the self-peer is always on port 0
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p.Coords = append(p.Coords, 0)
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p.Coords = wire_put_uint64(msg.FlowKey, p.Coords)
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}
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sinfo.myNonce.Increment()
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k = sinfo.sharedSesKey
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}
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@ -542,12 +553,13 @@ func (sinfo *sessionInfo) sendWorker() {
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ch := make(chan func(), 1)
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poolFunc := func() {
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// Encrypt the packet
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p.Payload, _ = crypto.BoxSeal(&k, bs, &p.Nonce)
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packet := p.encode()
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p.Payload, _ = crypto.BoxSeal(&k, msg.Message, &p.Nonce)
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// The callback will send the packet
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callback := func() {
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// Encoding may block on a util.GetBytes(), so kept out of the worker pool
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packet := p.encode()
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// Cleanup
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util.PutBytes(bs)
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util.PutBytes(msg.Message)
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util.PutBytes(p.Payload)
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// Send the packet
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sinfo.core.router.out(packet)
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@ -566,8 +578,8 @@ func (sinfo *sessionInfo) sendWorker() {
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f()
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case <-sinfo.cancel.Finished():
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return
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case bs := <-sinfo.send:
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doSend(bs)
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case msg := <-sinfo.send:
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doSend(msg)
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}
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}
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select {
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