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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 "time"
type sessionInfo struct {
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core *Core
theirAddr address
theirSubnet subnet
theirPermPub boxPubKey
theirSesPub boxPubKey
mySesPub boxPubKey
mySesPriv boxPrivKey
sharedSesKey boxSharedKey // derived from session keys
theirHandle handle
myHandle handle
theirNonce boxNonce
myNonce boxNonce
time time.Time // Time we last received a packet
coords []byte // coords of destination
packet []byte // a buffered packet, sent immediately on ping/pong
init bool // Reset if coords change
send chan []byte
recv chan *wire_trafficPacket
nonceMask uint64
tstamp int64 // tstamp from their last session ping, replay attack mitigation
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}
// FIXME replay attacks (include nonce or some sequence number)
type sessionPing struct {
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sendPermPub boxPubKey // Sender's permanent key
handle handle // Random number to ID session
sendSesPub boxPubKey // Session key to use
coords []byte
tstamp int64 // unix time, but the only real requirement is that it increases
isPong bool
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}
// Returns true if the session was updated, false otherwise
func (s *sessionInfo) update(p *sessionPing) bool {
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if !(p.tstamp > s.tstamp) {
return false
}
if p.sendPermPub != s.theirPermPub {
return false
} // Shouldn't happen
if p.sendSesPub != s.theirSesPub {
// FIXME need to protect against replay attacks
// Put a sequence number or a timestamp or something in the pings?
// Or just return false, make the session time out?
s.theirSesPub = p.sendSesPub
s.theirHandle = p.handle
s.sharedSesKey = *getSharedKey(&s.mySesPriv, &s.theirSesPub)
s.theirNonce = boxNonce{}
s.nonceMask = 0
}
s.coords = append([]byte{}, p.coords...)
s.time = time.Now()
s.tstamp = p.tstamp
s.init = true
return true
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}
func (s *sessionInfo) timedout() bool {
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return time.Since(s.time) > time.Minute
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}
type sessions struct {
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core *Core
// Maps known permanent keys to their shared key, used by DHT a lot
permShared map[boxPubKey]*boxSharedKey
// Maps (secret) handle onto session info
sinfos map[handle]*sessionInfo
// Maps mySesPub onto handle
byMySes map[boxPubKey]*handle
// Maps theirPermPub onto handle
byTheirPerm map[boxPubKey]*handle
addrToPerm map[address]*boxPubKey
subnetToPerm map[subnet]*boxPubKey
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}
func (ss *sessions) init(core *Core) {
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ss.core = core
ss.permShared = make(map[boxPubKey]*boxSharedKey)
ss.sinfos = make(map[handle]*sessionInfo)
ss.byMySes = make(map[boxPubKey]*handle)
ss.byTheirPerm = make(map[boxPubKey]*handle)
ss.addrToPerm = make(map[address]*boxPubKey)
ss.subnetToPerm = make(map[subnet]*boxPubKey)
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}
func (ss *sessions) getSessionForHandle(handle *handle) (*sessionInfo, bool) {
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sinfo, isIn := ss.sinfos[*handle]
if isIn && sinfo.timedout() {
// We have a session, but it has timed out
return nil, false
}
return sinfo, isIn
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}
func (ss *sessions) getByMySes(key *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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}
func (ss *sessions) getByTheirPerm(key *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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}
func (ss *sessions) getByTheirAddr(addr *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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}
func (ss *sessions) getByTheirSubnet(snet *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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}
func (ss *sessions) createSession(theirPermKey *boxPubKey) *sessionInfo {
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sinfo := sessionInfo{}
sinfo.core = ss.core
sinfo.theirPermPub = *theirPermKey
pub, priv := newBoxKeys()
sinfo.mySesPub = *pub
sinfo.mySesPriv = *priv
sinfo.myNonce = *newBoxNonce() // TODO make sure nonceIsOK tolerates this
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 = *newHandle()
sinfo.theirAddr = *address_addrForNodeID(getNodeID(&sinfo.theirPermPub))
sinfo.theirSubnet = *address_subnetForNodeID(getNodeID(&sinfo.theirPermPub))
sinfo.send = make(chan []byte, 1024)
sinfo.recv = make(chan *wire_trafficPacket, 1024)
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go sinfo.doWorker()
sinfo.time = time.Now()
// Do some cleanup
// Time thresholds almost certainly could use some adjusting
for _, s := range ss.sinfos {
if s.timedout() {
s.close()
}
}
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
return &sinfo
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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.send)
close(sinfo.recv)
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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,
}
sinfo.myNonce.update()
return ref
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}
func (ss *sessions) getSharedKey(myPriv *boxPrivKey,
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theirPub *boxPubKey) *boxSharedKey {
if skey, isIn := ss.permShared[*theirPub]; isIn {
return skey
}
// First do some cleanup
const maxKeys = dht_bucket_number * dht_bucket_size
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] = getSharedKey(myPriv, theirPub)
return ss.permShared[*theirPub]
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}
func (ss *sessions) ping(sinfo *sessionInfo) {
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ss.sendPingPong(sinfo, false)
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}
func (ss *sessions) sendPingPong(sinfo *sessionInfo, isPong bool) {
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ping := ss.getPing(sinfo)
ping.isPong = isPong
bs := ping.encode()
shared := ss.getSharedKey(&ss.core.boxPriv, &sinfo.theirPermPub)
payload, nonce := boxSeal(shared, bs, nil)
p := wire_protoTrafficPacket{
ttl: ^uint64(0),
coords: sinfo.coords,
toKey: sinfo.theirPermPub,
fromKey: ss.core.boxPub,
nonce: *nonce,
payload: payload,
}
packet := p.encode()
ss.core.router.out(packet)
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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)
if !isIn || sinfo.timedout() {
if isIn {
sinfo.close()
}
ss.createSession(&ping.sendPermPub)
sinfo, isIn = ss.getByTheirPerm(&ping.sendPermPub)
if !isIn {
panic("This should not happen")
}
}
// 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 {
// send
var bs []byte
bs, sinfo.packet = sinfo.packet, nil
go func() { sinfo.send <- bs }()
}
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}
func (n *boxNonce) minus(m *boxNonce) int64 {
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diff := int64(0)
for idx := range n {
diff *= 256
diff += int64(n[idx]) - int64(m[idx])
if diff > 64 {
diff = 64
}
if diff < -64 {
diff = -64
}
}
return diff
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}
func (sinfo *sessionInfo) nonceIsOK(theirNonce *boxNonce) bool {
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// The bitmask is to allow for some non-duplicate out-of-order packets
diff := theirNonce.minus(&sinfo.theirNonce)
if diff > 0 {
return true
}
return ^sinfo.nonceMask&(0x01<<uint64(-diff)) != 0
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}
func (sinfo *sessionInfo) updateNonce(theirNonce *boxNonce) {
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// Shift nonce mask if needed
// Set bit
diff := theirNonce.minus(&sinfo.theirNonce)
if diff > 0 {
sinfo.nonceMask <<= uint64(diff)
sinfo.nonceMask &= 0x01
} else {
sinfo.nonceMask &= 0x01 << uint64(-diff)
}
sinfo.theirNonce = *theirNonce
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}
func (ss *sessions) resetInits() {
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for _, sinfo := range ss.sinfos {
sinfo.init = false
}
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}
////////////////////////////////////////////////////////////////////////////////
// This is for a per-session worker
// It handles calling the relatively expensive crypto operations
// It's also responsible for keeping nonces consistent
func (sinfo *sessionInfo) doWorker() {
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for {
select {
case p, ok := <-sinfo.recv:
if ok {
sinfo.doRecv(p)
} else {
return
}
case bs, ok := <-sinfo.send:
if ok {
sinfo.doSend(bs)
} else {
return
}
}
}
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}
func (sinfo *sessionInfo) doSend(bs []byte) {
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defer util_putBytes(bs)
if !sinfo.init {
return
} // To prevent using empty session keys
payload, nonce := boxSeal(&sinfo.sharedSesKey, bs, &sinfo.myNonce)
defer util_putBytes(payload)
p := wire_trafficPacket{
ttl: ^uint64(0),
coords: sinfo.coords,
handle: sinfo.theirHandle,
nonce: *nonce,
payload: payload,
}
packet := p.encode()
sinfo.core.router.out(packet)
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}
func (sinfo *sessionInfo) doRecv(p *wire_trafficPacket) {
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defer util_putBytes(p.payload)
if !sinfo.nonceIsOK(&p.nonce) {
return
}
bs, isOK := boxOpen(&sinfo.sharedSesKey, p.payload, &p.nonce)
if !isOK {
util_putBytes(bs)
return
}
sinfo.updateNonce(&p.nonce)
sinfo.time = time.Now()
sinfo.core.router.recvPacket(bs, &sinfo.theirAddr)
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}