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yggdrasil-go/src/yggdrasil/session.go

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package yggdrasil
// This is the session manager
// It's responsible for keeping track of open sessions to other nodes
// The session information consists of crypto keys and coords
import (
"bytes"
"encoding/hex"
"sync"
"time"
"github.com/yggdrasil-network/yggdrasil-go/src/address"
"github.com/yggdrasil-network/yggdrasil-go/src/crypto"
)
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// All the information we know about an active session.
// 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 {
core *Core //
reconfigure chan chan error //
theirAddr address.Address //
theirSubnet address.Subnet //
theirPermPub crypto.BoxPubKey //
theirSesPub crypto.BoxPubKey //
mySesPub crypto.BoxPubKey //
mySesPriv crypto.BoxPrivKey //
sharedSesKey crypto.BoxSharedKey // derived from session keys
theirHandle crypto.Handle //
myHandle crypto.Handle //
theirNonce crypto.BoxNonce //
theirNonceMask uint64 //
myNonce crypto.BoxNonce //
theirMTU uint16 //
myMTU uint16 //
wasMTUFixed bool // Was the MTU fixed by a receive error?
time time.Time // Time we last received a packet
mtuTime time.Time // time myMTU was last changed
pingTime time.Time // time the first ping was sent since the last received packet
pingSend time.Time // time the last ping was sent
coords []byte // coords of destination
packet []byte // a buffered packet, sent immediately on ping/pong
init bool // Reset if coords change
tstamp int64 // ATOMIC - tstamp from their last session ping, replay attack mitigation
bytesSent uint64 // Bytes of real traffic sent in this session
bytesRecvd uint64 // Bytes of real traffic received in this session
worker chan func() // Channel to send work to the session worker
recv chan *wire_trafficPacket // Received packets go here, picked up by the associated Conn
}
func (sinfo *sessionInfo) doWorker(f func()) {
done := make(chan struct{})
sinfo.worker <- func() {
f()
close(done)
}
<-done
}
func (sinfo *sessionInfo) workerMain() {
for f := range sinfo.worker {
f()
}
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}
// Represents a session ping/pong packet, andincludes information like public keys, a session handle, coords, a timestamp to prevent replays, and the tun/tap MTU.
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type sessionPing struct {
SendPermPub crypto.BoxPubKey // Sender's permanent key
Handle crypto.Handle // Random number to ID session
SendSesPub crypto.BoxPubKey // Session key to use
Coords []byte //
Tstamp int64 // unix time, but the only real requirement is that it increases
IsPong bool //
MTU uint16 //
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}
// Updates session info in response to a ping, after checking that the ping is OK.
// Returns true if the session was updated, or false otherwise.
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func (s *sessionInfo) update(p *sessionPing) bool {
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if !(p.Tstamp > s.tstamp) {
// To protect against replay attacks
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return false
}
if p.SendPermPub != s.theirPermPub {
// Should only happen if two sessions got the same handle
// That shouldn't be allowed anyway, but if it happens then let one time out
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return false
}
if p.SendSesPub != s.theirSesPub {
s.theirSesPub = p.SendSesPub
s.theirHandle = p.Handle
s.sharedSesKey = *crypto.GetSharedKey(&s.mySesPriv, &s.theirSesPub)
s.theirNonce = crypto.BoxNonce{}
s.theirNonceMask = 0
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}
if p.MTU >= 1280 || p.MTU == 0 {
s.theirMTU = p.MTU
}
if !bytes.Equal(s.coords, p.Coords) {
// allocate enough space for additional coords
s.coords = append(make([]byte, 0, len(p.Coords)+11), p.Coords...)
}
s.time = time.Now()
s.tstamp = p.Tstamp
s.init = true
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return true
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}
// Struct of all active sessions.
// Sessions are indexed by handle.
// Additionally, stores maps of address/subnet onto keys, and keys onto handles.
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type sessions struct {
core *Core
listener *Listener
listenerMutex sync.Mutex
reconfigure chan chan error
lastCleanup time.Time
permShared map[crypto.BoxPubKey]*crypto.BoxSharedKey // Maps known permanent keys to their shared key, used by DHT a lot
sinfos map[crypto.Handle]*sessionInfo // Maps (secret) handle onto session info
conns map[crypto.Handle]*Conn // Maps (secret) handle onto connections
byMySes map[crypto.BoxPubKey]*crypto.Handle // Maps mySesPub onto handle
byTheirPerm map[crypto.BoxPubKey]*crypto.Handle // Maps theirPermPub onto handle
addrToPerm map[address.Address]*crypto.BoxPubKey
subnetToPerm map[address.Subnet]*crypto.BoxPubKey
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}
// Initializes the session struct.
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func (ss *sessions) init(core *Core) {
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ss.core = core
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ss.reconfigure = make(chan chan error, 1)
go func() {
for {
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e := <-ss.reconfigure
responses := make(map[crypto.Handle]chan error)
for index, session := range ss.sinfos {
responses[index] = make(chan error)
session.reconfigure <- responses[index]
}
for _, response := range responses {
if err := <-response; err != nil {
e <- err
continue
}
}
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e <- nil
}
}()
ss.permShared = make(map[crypto.BoxPubKey]*crypto.BoxSharedKey)
ss.sinfos = make(map[crypto.Handle]*sessionInfo)
ss.byMySes = make(map[crypto.BoxPubKey]*crypto.Handle)
ss.byTheirPerm = make(map[crypto.BoxPubKey]*crypto.Handle)
ss.addrToPerm = make(map[address.Address]*crypto.BoxPubKey)
ss.subnetToPerm = make(map[address.Subnet]*crypto.BoxPubKey)
ss.lastCleanup = time.Now()
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}
// Determines whether the session firewall is enabled.
func (ss *sessions) isSessionFirewallEnabled() bool {
ss.core.config.Mutex.RLock()
defer ss.core.config.Mutex.RUnlock()
return ss.core.config.Current.SessionFirewall.Enable
}
// Determines whether the session with a given publickey is allowed based on
// session firewall rules.
func (ss *sessions) isSessionAllowed(pubkey *crypto.BoxPubKey, initiator bool) bool {
ss.core.config.Mutex.RLock()
defer ss.core.config.Mutex.RUnlock()
// Allow by default if the session firewall is disabled
if !ss.isSessionFirewallEnabled() {
return true
}
// Prepare for checking whitelist/blacklist
var box crypto.BoxPubKey
// Reject blacklisted nodes
for _, b := range ss.core.config.Current.SessionFirewall.BlacklistEncryptionPublicKeys {
key, err := hex.DecodeString(b)
if err == nil {
copy(box[:crypto.BoxPubKeyLen], key)
if box == *pubkey {
return false
}
}
}
// Allow whitelisted nodes
for _, b := range ss.core.config.Current.SessionFirewall.WhitelistEncryptionPublicKeys {
key, err := hex.DecodeString(b)
if err == nil {
copy(box[:crypto.BoxPubKeyLen], key)
if box == *pubkey {
return true
}
}
}
// Allow outbound sessions if appropriate
if ss.core.config.Current.SessionFirewall.AlwaysAllowOutbound {
if initiator {
return true
}
}
// Look and see if the pubkey is that of a direct peer
var isDirectPeer bool
for _, peer := range ss.core.peers.ports.Load().(map[switchPort]*peer) {
if peer.box == *pubkey {
isDirectPeer = true
break
}
}
// Allow direct peers if appropriate
if ss.core.config.Current.SessionFirewall.AllowFromDirect && isDirectPeer {
return true
}
// Allow remote nodes if appropriate
if ss.core.config.Current.SessionFirewall.AllowFromRemote && !isDirectPeer {
return true
}
// Finally, default-deny if not matching any of the above rules
return false
}
// Gets the session corresponding to a given handle.
func (ss *sessions) getSessionForHandle(handle *crypto.Handle) (*sessionInfo, bool) {
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sinfo, isIn := ss.sinfos[*handle]
return sinfo, isIn
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}
// Gets a session corresponding to an ephemeral session key used by this node.
func (ss *sessions) getByMySes(key *crypto.BoxPubKey) (*sessionInfo, bool) {
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h, isIn := ss.byMySes[*key]
if !isIn {
return nil, false
}
sinfo, isIn := ss.getSessionForHandle(h)
return sinfo, isIn
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}
// Gets a session corresponding to a permanent key used by the remote node.
func (ss *sessions) getByTheirPerm(key *crypto.BoxPubKey) (*sessionInfo, bool) {
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h, isIn := ss.byTheirPerm[*key]
if !isIn {
return nil, false
}
sinfo, isIn := ss.getSessionForHandle(h)
return sinfo, isIn
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}
// Gets a session corresponding to an IPv6 address used by the remote node.
func (ss *sessions) getByTheirAddr(addr *address.Address) (*sessionInfo, bool) {
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p, isIn := ss.addrToPerm[*addr]
if !isIn {
return nil, false
}
sinfo, isIn := ss.getByTheirPerm(p)
return sinfo, isIn
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}
// Gets a session corresponding to an IPv6 /64 subnet used by the remote node/network.
func (ss *sessions) getByTheirSubnet(snet *address.Subnet) (*sessionInfo, bool) {
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p, isIn := ss.subnetToPerm[*snet]
if !isIn {
return nil, false
}
sinfo, isIn := ss.getByTheirPerm(p)
return sinfo, isIn
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}
// Creates a new session and lazily cleans up old existing sessions. This
// includse initializing session info to sane defaults (e.g. lowest supported
// MTU).
func (ss *sessions) createSession(theirPermKey *crypto.BoxPubKey) *sessionInfo {
if !ss.isSessionAllowed(theirPermKey, true) {
return nil
}
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sinfo := sessionInfo{}
sinfo.core = ss.core
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sinfo.reconfigure = make(chan chan error, 1)
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sinfo.theirPermPub = *theirPermKey
pub, priv := crypto.NewBoxKeys()
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sinfo.mySesPub = *pub
sinfo.mySesPriv = *priv
sinfo.myNonce = *crypto.NewBoxNonce()
sinfo.theirMTU = 1280
sinfo.myMTU = 1280
now := time.Now()
sinfo.time = now
sinfo.mtuTime = now
sinfo.pingTime = now
sinfo.pingSend = now
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higher := false
for idx := range ss.core.boxPub {
if ss.core.boxPub[idx] > sinfo.theirPermPub[idx] {
higher = true
break
} else if ss.core.boxPub[idx] < sinfo.theirPermPub[idx] {
break
}
}
if higher {
// higher => odd nonce
sinfo.myNonce[len(sinfo.myNonce)-1] |= 0x01
} else {
// lower => even nonce
sinfo.myNonce[len(sinfo.myNonce)-1] &= 0xfe
}
sinfo.myHandle = *crypto.NewHandle()
sinfo.theirAddr = *address.AddrForNodeID(crypto.GetNodeID(&sinfo.theirPermPub))
sinfo.theirSubnet = *address.SubnetForNodeID(crypto.GetNodeID(&sinfo.theirPermPub))
sinfo.worker = make(chan func(), 1)
sinfo.recv = make(chan *wire_trafficPacket, 32)
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ss.sinfos[sinfo.myHandle] = &sinfo
ss.byMySes[sinfo.mySesPub] = &sinfo.myHandle
ss.byTheirPerm[sinfo.theirPermPub] = &sinfo.myHandle
ss.addrToPerm[sinfo.theirAddr] = &sinfo.theirPermPub
ss.subnetToPerm[sinfo.theirSubnet] = &sinfo.theirPermPub
go sinfo.workerMain()
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return &sinfo
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}
func (ss *sessions) cleanup() {
// Time thresholds almost certainly could use some adjusting
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for k := range ss.permShared {
// Delete a key, to make sure this eventually shrinks to 0
delete(ss.permShared, k)
break
}
if time.Since(ss.lastCleanup) < time.Minute {
return
}
permShared := make(map[crypto.BoxPubKey]*crypto.BoxSharedKey, len(ss.permShared))
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for k, v := range ss.permShared {
permShared[k] = v
}
ss.permShared = permShared
sinfos := make(map[crypto.Handle]*sessionInfo, len(ss.sinfos))
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for k, v := range ss.sinfos {
sinfos[k] = v
}
ss.sinfos = sinfos
byMySes := make(map[crypto.BoxPubKey]*crypto.Handle, len(ss.byMySes))
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for k, v := range ss.byMySes {
byMySes[k] = v
}
ss.byMySes = byMySes
byTheirPerm := make(map[crypto.BoxPubKey]*crypto.Handle, len(ss.byTheirPerm))
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for k, v := range ss.byTheirPerm {
byTheirPerm[k] = v
}
ss.byTheirPerm = byTheirPerm
addrToPerm := make(map[address.Address]*crypto.BoxPubKey, len(ss.addrToPerm))
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for k, v := range ss.addrToPerm {
addrToPerm[k] = v
}
ss.addrToPerm = addrToPerm
subnetToPerm := make(map[address.Subnet]*crypto.BoxPubKey, len(ss.subnetToPerm))
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for k, v := range ss.subnetToPerm {
subnetToPerm[k] = v
}
ss.subnetToPerm = subnetToPerm
ss.lastCleanup = time.Now()
}
// Closes a session, removing it from sessions maps and killing the worker goroutine.
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func (sinfo *sessionInfo) close() {
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delete(sinfo.core.sessions.sinfos, sinfo.myHandle)
delete(sinfo.core.sessions.byMySes, sinfo.mySesPub)
delete(sinfo.core.sessions.byTheirPerm, sinfo.theirPermPub)
delete(sinfo.core.sessions.addrToPerm, sinfo.theirAddr)
delete(sinfo.core.sessions.subnetToPerm, sinfo.theirSubnet)
close(sinfo.worker)
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}
// Returns a session ping appropriate for the given session info.
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func (ss *sessions) getPing(sinfo *sessionInfo) sessionPing {
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loc := ss.core.switchTable.getLocator()
coords := loc.getCoords()
ref := sessionPing{
SendPermPub: ss.core.boxPub,
Handle: sinfo.myHandle,
SendSesPub: sinfo.mySesPub,
Tstamp: time.Now().Unix(),
Coords: coords,
MTU: sinfo.myMTU,
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}
sinfo.myNonce.Increment()
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return ref
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}
// Gets the shared key for a pair of box keys.
// Used to cache recently used shared keys for protocol traffic.
// This comes up with dht req/res and session ping/pong traffic.
func (ss *sessions) getSharedKey(myPriv *crypto.BoxPrivKey,
theirPub *crypto.BoxPubKey) *crypto.BoxSharedKey {
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if skey, isIn := ss.permShared[*theirPub]; isIn {
return skey
}
// First do some cleanup
const maxKeys = 1024
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for key := range ss.permShared {
// Remove a random key until the store is small enough
if len(ss.permShared) < maxKeys {
break
}
delete(ss.permShared, key)
}
ss.permShared[*theirPub] = crypto.GetSharedKey(myPriv, theirPub)
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return ss.permShared[*theirPub]
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}
// Sends a session ping by calling sendPingPong in ping mode.
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func (ss *sessions) ping(sinfo *sessionInfo) {
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ss.sendPingPong(sinfo, false)
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}
// Calls getPing, sets the appropriate ping/pong flag, encodes to wire format, and send it.
// Updates the time the last ping was sent in the session info.
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func (ss *sessions) sendPingPong(sinfo *sessionInfo, isPong bool) {
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ping := ss.getPing(sinfo)
ping.IsPong = isPong
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bs := ping.encode()
shared := ss.getSharedKey(&ss.core.boxPriv, &sinfo.theirPermPub)
payload, nonce := crypto.BoxSeal(shared, bs, nil)
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p := wire_protoTrafficPacket{
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Coords: sinfo.coords,
ToKey: sinfo.theirPermPub,
FromKey: ss.core.boxPub,
Nonce: *nonce,
Payload: payload,
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}
packet := p.encode()
ss.core.router.out(packet)
if !isPong {
sinfo.pingSend = time.Now()
}
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}
// Handles a session ping, creating a session if needed and calling update, then possibly responding with a pong if the ping was in ping mode and the update was successful.
// If the session has a packet cached (common when first setting up a session), it will be sent.
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func (ss *sessions) handlePing(ping *sessionPing) {
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// Get the corresponding session (or create a new session)
sinfo, isIn := ss.getByTheirPerm(&ping.SendPermPub)
// Check the session firewall
if !isIn && ss.isSessionFirewallEnabled() {
if !ss.isSessionAllowed(&ping.SendPermPub, false) {
return
}
}
if !isIn {
ss.createSession(&ping.SendPermPub)
sinfo, isIn = ss.getByTheirPerm(&ping.SendPermPub)
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if !isIn {
panic("This should not happen")
}
ss.listenerMutex.Lock()
// Check and see if there's a Listener waiting to accept connections
// TODO: this should not block if nothing is accepting
if !ping.IsPong && ss.listener != nil {
conn := newConn(ss.core, crypto.GetNodeID(&sinfo.theirPermPub), &crypto.NodeID{}, sinfo)
for i := range conn.nodeMask {
conn.nodeMask[i] = 0xFF
}
ss.listener.conn <- conn
}
ss.listenerMutex.Unlock()
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}
sinfo.doWorker(func() {
// Update the session
if !sinfo.update(ping) { /*panic("Should not happen in testing")*/
return
}
if !ping.IsPong {
ss.sendPingPong(sinfo, true)
}
if sinfo.packet != nil {
/* FIXME this needs to live in the net.Conn or something, needs work in Write
// send
var bs []byte
bs, sinfo.packet = sinfo.packet, nil
ss.core.router.sendPacket(bs) // FIXME this needs to live in the net.Conn or something, needs work in Write
*/
sinfo.packet = nil
}
})
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}
// Get the MTU of the session.
// Will be equal to the smaller of this node's MTU or the remote node's MTU.
// If sending over links with a maximum message size (this was a thing with the old UDP code), it could be further lowered, to a minimum of 1280.
func (sinfo *sessionInfo) getMTU() uint16 {
if sinfo.theirMTU == 0 || sinfo.myMTU == 0 {
return 0
}
if sinfo.theirMTU < sinfo.myMTU {
return sinfo.theirMTU
}
return sinfo.myMTU
}
// Checks if a packet's nonce is recent enough to fall within the window of allowed packets, and not already received.
func (sinfo *sessionInfo) nonceIsOK(theirNonce *crypto.BoxNonce) bool {
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// The bitmask is to allow for some non-duplicate out-of-order packets
diff := theirNonce.Minus(&sinfo.theirNonce)
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if diff > 0 {
return true
}
return ^sinfo.theirNonceMask&(0x01<<uint64(-diff)) != 0
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}
// Updates the nonce mask by (possibly) shifting the bitmask and setting the bit corresponding to this nonce to 1, and then updating the most recent nonce
func (sinfo *sessionInfo) updateNonce(theirNonce *crypto.BoxNonce) {
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// Shift nonce mask if needed
// Set bit
diff := theirNonce.Minus(&sinfo.theirNonce)
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if diff > 0 {
// This nonce is newer, so shift the window before setting the bit, and update theirNonce in the session info.
sinfo.theirNonceMask <<= uint64(diff)
sinfo.theirNonceMask &= 0x01
sinfo.theirNonce = *theirNonce
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} else {
// This nonce is older, so set the bit but do not shift the window.
sinfo.theirNonceMask &= 0x01 << uint64(-diff)
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}
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}
// Resets all sessions to an uninitialized state.
// Called after coord changes, so attemtps to use a session will trigger a new ping and notify the remote end of the coord change.
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func (ss *sessions) resetInits() {
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for _, sinfo := range ss.sinfos {
sinfo.doWorker(func() {
sinfo.init = false
})
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}
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}