WIP moving IP-specific checks from tuntap to core

This commit is contained in:
Arceliar 2021-06-13 04:22:21 -05:00
parent bb66851c2b
commit 1147ee1934
9 changed files with 339 additions and 220 deletions

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@ -46,7 +46,7 @@ type Session struct {
func (c *Core) GetSelf() Self { func (c *Core) GetSelf() Self {
var self Self var self Self
s := c.PacketConn.PacketConn.Debug.GetSelf() s := c.pc.PacketConn.Debug.GetSelf()
self.Key = s.Key self.Key = s.Key
self.Root = s.Root self.Root = s.Root
self.Coords = s.Coords self.Coords = s.Coords
@ -55,7 +55,7 @@ func (c *Core) GetSelf() Self {
func (c *Core) GetPeers() []Peer { func (c *Core) GetPeers() []Peer {
var peers []Peer var peers []Peer
ps := c.PacketConn.PacketConn.Debug.GetPeers() ps := c.pc.PacketConn.Debug.GetPeers()
for _, p := range ps { for _, p := range ps {
var info Peer var info Peer
info.Key = p.Key info.Key = p.Key
@ -69,7 +69,7 @@ func (c *Core) GetPeers() []Peer {
func (c *Core) GetDHT() []DHTEntry { func (c *Core) GetDHT() []DHTEntry {
var dhts []DHTEntry var dhts []DHTEntry
ds := c.PacketConn.PacketConn.Debug.GetDHT() ds := c.pc.PacketConn.Debug.GetDHT()
for _, d := range ds { for _, d := range ds {
var info DHTEntry var info DHTEntry
info.Key = d.Key info.Key = d.Key
@ -82,7 +82,7 @@ func (c *Core) GetDHT() []DHTEntry {
func (c *Core) GetPaths() []PathEntry { func (c *Core) GetPaths() []PathEntry {
var paths []PathEntry var paths []PathEntry
ps := c.PacketConn.PacketConn.Debug.GetPaths() ps := c.pc.PacketConn.Debug.GetPaths()
for _, p := range ps { for _, p := range ps {
var info PathEntry var info PathEntry
info.Key = p.Key info.Key = p.Key
@ -94,7 +94,7 @@ func (c *Core) GetPaths() []PathEntry {
func (c *Core) GetSessions() []Session { func (c *Core) GetSessions() []Session {
var sessions []Session var sessions []Session
ss := c.PacketConn.Debug.GetSessions() ss := c.pc.Debug.GetSessions()
for _, s := range ss { for _, s := range ss {
var info Session var info Session
info.Key = s.Key info.Key = s.Key

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@ -25,11 +25,13 @@ type Core struct {
// We're going to keep our own copy of the provided config - that way we can // We're going to keep our own copy of the provided config - that way we can
// guarantee that it will be covered by the mutex // guarantee that it will be covered by the mutex
phony.Inbox phony.Inbox
*iw.PacketConn pc *iw.PacketConn
config *config.NodeConfig // Config config *config.NodeConfig // Config
secret ed25519.PrivateKey secret ed25519.PrivateKey
public ed25519.PublicKey public ed25519.PublicKey
links links links links
proto protoHandler
store keyStore
log *log.Logger log *log.Logger
addPeerTimer *time.Timer addPeerTimer *time.Timer
ctx context.Context ctx context.Context
@ -59,8 +61,10 @@ func (c *Core) _init() error {
c.public = c.secret.Public().(ed25519.PublicKey) c.public = c.secret.Public().(ed25519.PublicKey)
// TODO check public against current.PublicKey, error if they don't match // TODO check public against current.PublicKey, error if they don't match
c.PacketConn, err = iw.NewPacketConn(c.secret) c.pc, err = iw.NewPacketConn(c.secret)
c.ctx, c.ctxCancel = context.WithCancel(context.Background()) c.ctx, c.ctxCancel = context.WithCancel(context.Background())
c.store.init(c)
c.proto.init(c)
return err return err
} }
@ -160,7 +164,7 @@ func (c *Core) Stop() {
func (c *Core) _stop() { func (c *Core) _stop() {
c.log.Infoln("Stopping...") c.log.Infoln("Stopping...")
c.ctxCancel() c.ctxCancel()
c.PacketConn.Close() c.pc.Close()
if c.addPeerTimer != nil { if c.addPeerTimer != nil {
c.addPeerTimer.Stop() c.addPeerTimer.Stop()
c.addPeerTimer = nil c.addPeerTimer = nil
@ -173,3 +177,20 @@ func (c *Core) _stop() {
*/ */
c.log.Infoln("Stopped") c.log.Infoln("Stopped")
} }
// Implement io.ReadWriteCloser
func (c *Core) Read(p []byte) (n int, err error) {
n, err = c.store.readPC(p)
return
}
func (c *Core) Write(p []byte) (n int, err error) {
n, err = c.store.writePC(p)
return
}
func (c *Core) Close() error {
c.Stop()
return nil
}

295
src/core/keystore.go Normal file
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@ -0,0 +1,295 @@
package core
import (
"crypto/ed25519"
"errors"
"fmt"
"sync"
"time"
iwt "github.com/Arceliar/ironwood/types"
"github.com/yggdrasil-network/yggdrasil-go/src/address"
)
const keyStoreTimeout = 2 * time.Minute
type keyArray [ed25519.PublicKeySize]byte
type keyStore struct {
core *Core
address address.Address
subnet address.Subnet
mutex sync.Mutex
keyToInfo map[keyArray]*keyInfo
addrToInfo map[address.Address]*keyInfo
addrBuffer map[address.Address]*buffer
subnetToInfo map[address.Subnet]*keyInfo
subnetBuffer map[address.Subnet]*buffer
buf []byte // scratch space to prefix with typeSessionTraffic before sending
}
type keyInfo struct {
key keyArray
address address.Address
subnet address.Subnet
timeout *time.Timer // From calling a time.AfterFunc to do cleanup
}
type buffer struct {
packets [][]byte
timeout *time.Timer
}
func (k *keyStore) init(core *Core) {
k.core = core
k.address = *address.AddrForKey(k.core.public)
k.subnet = *address.SubnetForKey(k.core.public)
k.core.pc.SetOutOfBandHandler(k.oobHandler)
k.keyToInfo = make(map[keyArray]*keyInfo)
k.addrToInfo = make(map[address.Address]*keyInfo)
k.addrBuffer = make(map[address.Address]*buffer)
k.subnetToInfo = make(map[address.Subnet]*keyInfo)
k.subnetBuffer = make(map[address.Subnet]*buffer)
}
func (k *keyStore) sendToAddress(addr address.Address, bs []byte) {
k.mutex.Lock()
if info := k.addrToInfo[addr]; info != nil {
k.resetTimeout(info)
k.mutex.Unlock()
_, _ = k.core.pc.WriteTo(bs, iwt.Addr(info.key[:]))
} else {
var buf *buffer
if buf = k.addrBuffer[addr]; buf == nil {
buf = new(buffer)
k.addrBuffer[addr] = buf
}
msg := append([]byte(nil), bs...)
buf.packets = append(buf.packets, msg)
if buf.timeout != nil {
buf.timeout.Stop()
}
buf.timeout = time.AfterFunc(keyStoreTimeout, func() {
k.mutex.Lock()
defer k.mutex.Unlock()
if nbuf := k.addrBuffer[addr]; nbuf == buf {
delete(k.addrBuffer, addr)
}
})
k.mutex.Unlock()
k.sendKeyLookup(addr.GetKey())
}
}
func (k *keyStore) sendToSubnet(subnet address.Subnet, bs []byte) {
k.mutex.Lock()
if info := k.subnetToInfo[subnet]; info != nil {
k.resetTimeout(info)
k.mutex.Unlock()
_, _ = k.core.pc.WriteTo(bs, iwt.Addr(info.key[:]))
} else {
var buf *buffer
if buf = k.subnetBuffer[subnet]; buf == nil {
buf = new(buffer)
k.subnetBuffer[subnet] = buf
}
msg := append([]byte(nil), bs...)
buf.packets = append(buf.packets, msg)
if buf.timeout != nil {
buf.timeout.Stop()
}
buf.timeout = time.AfterFunc(keyStoreTimeout, func() {
k.mutex.Lock()
defer k.mutex.Unlock()
if nbuf := k.subnetBuffer[subnet]; nbuf == buf {
delete(k.subnetBuffer, subnet)
}
})
k.mutex.Unlock()
k.sendKeyLookup(subnet.GetKey())
}
}
func (k *keyStore) update(key ed25519.PublicKey) *keyInfo {
k.mutex.Lock()
var kArray keyArray
copy(kArray[:], key)
var info *keyInfo
if info = k.keyToInfo[kArray]; info == nil {
info = new(keyInfo)
info.key = kArray
info.address = *address.AddrForKey(ed25519.PublicKey(info.key[:]))
info.subnet = *address.SubnetForKey(ed25519.PublicKey(info.key[:]))
k.keyToInfo[info.key] = info
k.addrToInfo[info.address] = info
k.subnetToInfo[info.subnet] = info
k.resetTimeout(info)
k.mutex.Unlock()
if buf := k.addrBuffer[info.address]; buf != nil {
for _, bs := range buf.packets {
_, _ = k.core.pc.WriteTo(bs, iwt.Addr(info.key[:]))
}
delete(k.addrBuffer, info.address)
}
if buf := k.subnetBuffer[info.subnet]; buf != nil {
for _, bs := range buf.packets {
_, _ = k.core.pc.WriteTo(bs, iwt.Addr(info.key[:]))
}
delete(k.subnetBuffer, info.subnet)
}
} else {
k.resetTimeout(info)
k.mutex.Unlock()
}
return info
}
func (k *keyStore) resetTimeout(info *keyInfo) {
if info.timeout != nil {
info.timeout.Stop()
}
info.timeout = time.AfterFunc(keyStoreTimeout, func() {
k.mutex.Lock()
defer k.mutex.Unlock()
if nfo := k.keyToInfo[info.key]; nfo == info {
delete(k.keyToInfo, info.key)
}
if nfo := k.addrToInfo[info.address]; nfo == info {
delete(k.addrToInfo, info.address)
}
if nfo := k.subnetToInfo[info.subnet]; nfo == info {
delete(k.subnetToInfo, info.subnet)
}
})
}
func (k *keyStore) oobHandler(fromKey, toKey ed25519.PublicKey, data []byte) {
if len(data) != 1+ed25519.SignatureSize {
return
}
sig := data[1:]
switch data[0] {
case typeKeyLookup:
snet := *address.SubnetForKey(toKey)
if snet == k.subnet && ed25519.Verify(fromKey, toKey[:], sig) {
// This is looking for at least our subnet (possibly our address)
// Send a response
k.sendKeyResponse(fromKey)
}
case typeKeyResponse:
// TODO keep a list of something to match against...
// Ignore the response if it doesn't match anything of interest...
if ed25519.Verify(fromKey, toKey[:], sig) {
k.update(fromKey)
}
}
}
func (k *keyStore) sendKeyLookup(partial ed25519.PublicKey) {
sig := ed25519.Sign(k.core.secret, partial[:])
bs := append([]byte{typeKeyLookup}, sig...)
_ = k.core.pc.SendOutOfBand(partial, bs)
}
func (k *keyStore) sendKeyResponse(dest ed25519.PublicKey) {
sig := ed25519.Sign(k.core.secret, dest[:])
bs := append([]byte{typeKeyResponse}, sig...)
_ = k.core.pc.SendOutOfBand(dest, bs)
}
func (k *keyStore) maxSessionMTU() uint64 {
const sessionTypeOverhead = 1
return k.core.pc.MTU() - sessionTypeOverhead
}
func (k *keyStore) readPC(p []byte) (int, error) {
for {
bs := p
n, from, err := k.core.pc.ReadFrom(bs)
if err != nil {
return n, err
}
if n == 0 {
continue
}
switch bs[0] {
case typeSessionTraffic:
// This is what we want to handle here
case typeSessionProto:
var key keyArray
copy(key[:], from.(iwt.Addr))
data := append([]byte(nil), bs[1:n]...)
k.core.proto.handleProto(nil, key, data)
continue
default:
continue
}
bs = bs[1:n]
if len(bs) == 0 {
continue
}
if bs[0]&0xf0 != 0x60 {
continue // not IPv6
}
if len(bs) < 40 {
continue
}
/* TODO ICMP packet too big
if len(bs) > int(tun.MTU()) {
ptb := &icmp.PacketTooBig{
MTU: int(tun.mtu),
Data: bs[:40],
}
if packet, err := CreateICMPv6(bs[8:24], bs[24:40], ipv6.ICMPTypePacketTooBig, 0, ptb); err == nil {
_, _ = tun.core.WriteTo(packet, from)
}
continue
}
*/
var srcAddr, dstAddr address.Address
var srcSubnet, dstSubnet address.Subnet
copy(srcAddr[:], bs[8:])
copy(dstAddr[:], bs[24:])
copy(srcSubnet[:], bs[8:])
copy(dstSubnet[:], bs[24:])
if dstAddr != k.address && dstSubnet != k.subnet {
continue // bad local address/subnet
}
info := k.update(ed25519.PublicKey(from.(iwt.Addr)))
if srcAddr != info.address && srcSubnet != info.subnet {
continue // bad remote address/subnet
}
n = copy(p, bs)
return n, nil
}
}
func (k *keyStore) writePC(bs []byte) (int, error) {
if bs[0]&0xf0 != 0x60 {
return 0, errors.New("not an IPv6 packet") // not IPv6
}
if len(bs) < 40 {
strErr := fmt.Sprint("undersized IPv6 packet, length:", len(bs))
return 0, errors.New(strErr)
}
var srcAddr, dstAddr address.Address
var srcSubnet, dstSubnet address.Subnet
copy(srcAddr[:], bs[8:])
copy(dstAddr[:], bs[24:])
copy(srcSubnet[:], bs[8:])
copy(dstSubnet[:], bs[24:])
if srcAddr != k.address && srcSubnet != k.subnet {
return 0, errors.New("wrong source address")
}
k.buf = append(k.buf[:0], typeSessionTraffic)
k.buf = append(k.buf, bs...)
if dstAddr.IsValid() {
k.sendToAddress(dstAddr, k.buf)
} else if dstSubnet.IsValid() {
k.sendToSubnet(dstSubnet, k.buf)
} else {
return 0, errors.New("invalid destination address")
}
return len(bs), nil
}

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@ -20,8 +20,6 @@ import (
//"github.com/Arceliar/phony" // TODO? use instead of mutexes //"github.com/Arceliar/phony" // TODO? use instead of mutexes
) )
type keyArray [ed25519.PublicKeySize]byte
type links struct { type links struct {
core *Core core *Core
mutex sync.RWMutex // protects links below mutex sync.RWMutex // protects links below
@ -231,7 +229,7 @@ func (intf *link) handler() (chan struct{}, error) {
intf.links.core.log.Infof("Connected %s: %s, source %s", intf.links.core.log.Infof("Connected %s: %s, source %s",
strings.ToUpper(intf.info.linkType), themString, intf.info.local) strings.ToUpper(intf.info.linkType), themString, intf.info.local)
// Run the handler // Run the handler
err = intf.links.core.PacketConn.HandleConn(ed25519.PublicKey(intf.info.key[:]), intf.conn) err = intf.links.core.pc.HandleConn(ed25519.PublicKey(intf.info.key[:]), intf.conn)
// TODO don't report an error if it's just a 'use of closed network connection' // TODO don't report an error if it's just a 'use of closed network connection'
if err != nil { if err != nil {
intf.links.core.log.Infof("Disconnected %s: %s, source %s; error: %s", intf.links.core.log.Infof("Disconnected %s: %s, source %s; error: %s",

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@ -1,4 +1,4 @@
package tuntap package core
import ( import (
"encoding/hex" "encoding/hex"
@ -129,7 +129,7 @@ func (m *nodeinfo) _sendReq(key keyArray, callback func(nodeinfo NodeInfoPayload
if callback != nil { if callback != nil {
m._addCallback(key, callback) m._addCallback(key, callback)
} }
_, _ = m.proto.tun.core.WriteTo([]byte{typeSessionProto, typeProtoNodeInfoRequest}, iwt.Addr(key[:])) _, _ = m.proto.core.pc.WriteTo([]byte{typeSessionProto, typeProtoNodeInfoRequest}, iwt.Addr(key[:]))
} }
func (m *nodeinfo) handleReq(from phony.Actor, key keyArray) { func (m *nodeinfo) handleReq(from phony.Actor, key keyArray) {
@ -146,7 +146,7 @@ func (m *nodeinfo) handleRes(from phony.Actor, key keyArray, info NodeInfoPayloa
func (m *nodeinfo) _sendRes(key keyArray) { func (m *nodeinfo) _sendRes(key keyArray) {
bs := append([]byte{typeSessionProto, typeProtoNodeInfoResponse}, m._getNodeInfo()...) bs := append([]byte{typeSessionProto, typeProtoNodeInfoResponse}, m._getNodeInfo()...)
_, _ = m.proto.tun.core.WriteTo(bs, iwt.Addr(key[:])) _, _ = m.proto.core.pc.WriteTo(bs, iwt.Addr(key[:]))
} }
// Admin socket stuff // Admin socket stuff

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@ -1,4 +1,4 @@
package tuntap package core
import ( import (
"encoding/hex" "encoding/hex"
@ -31,15 +31,15 @@ type reqInfo struct {
type protoHandler struct { type protoHandler struct {
phony.Inbox phony.Inbox
tun *TunAdapter core *Core
nodeinfo nodeinfo nodeinfo nodeinfo
sreqs map[keyArray]*reqInfo sreqs map[keyArray]*reqInfo
preqs map[keyArray]*reqInfo preqs map[keyArray]*reqInfo
dreqs map[keyArray]*reqInfo dreqs map[keyArray]*reqInfo
} }
func (p *protoHandler) init(tun *TunAdapter) { func (p *protoHandler) init(core *Core) {
p.tun = tun p.core = core
p.nodeinfo.init(p) p.nodeinfo.init(p)
p.sreqs = make(map[keyArray]*reqInfo) p.sreqs = make(map[keyArray]*reqInfo)
p.preqs = make(map[keyArray]*reqInfo) p.preqs = make(map[keyArray]*reqInfo)
@ -103,7 +103,7 @@ func (p *protoHandler) sendGetSelfRequest(key keyArray, callback func([]byte)) {
} }
func (p *protoHandler) _handleGetSelfRequest(key keyArray) { func (p *protoHandler) _handleGetSelfRequest(key keyArray) {
self := p.tun.core.GetSelf() self := p.core.GetSelf()
res := map[string]string{ res := map[string]string{
"key": hex.EncodeToString(self.Key[:]), "key": hex.EncodeToString(self.Key[:]),
"coords": fmt.Sprintf("%v", self.Coords), "coords": fmt.Sprintf("%v", self.Coords),
@ -144,12 +144,12 @@ func (p *protoHandler) sendGetPeersRequest(key keyArray, callback func([]byte))
} }
func (p *protoHandler) _handleGetPeersRequest(key keyArray) { func (p *protoHandler) _handleGetPeersRequest(key keyArray) {
peers := p.tun.core.GetPeers() peers := p.core.GetPeers()
var bs []byte var bs []byte
for _, pinfo := range peers { for _, pinfo := range peers {
tmp := append(bs, pinfo.Key[:]...) tmp := append(bs, pinfo.Key[:]...)
const responseOverhead = 2 // 1 debug type, 1 getpeers type const responseOverhead = 2 // 1 debug type, 1 getpeers type
if uint64(len(tmp))+responseOverhead > p.tun.maxSessionMTU() { if uint64(len(tmp))+responseOverhead > p.core.store.maxSessionMTU() {
break break
} }
bs = tmp bs = tmp
@ -186,12 +186,12 @@ func (p *protoHandler) sendGetDHTRequest(key keyArray, callback func([]byte)) {
} }
func (p *protoHandler) _handleGetDHTRequest(key keyArray) { func (p *protoHandler) _handleGetDHTRequest(key keyArray) {
dinfos := p.tun.core.GetDHT() dinfos := p.core.GetDHT()
var bs []byte var bs []byte
for _, dinfo := range dinfos { for _, dinfo := range dinfos {
tmp := append(bs, dinfo.Key[:]...) tmp := append(bs, dinfo.Key[:]...)
const responseOverhead = 2 // 1 debug type, 1 getdht type const responseOverhead = 2 // 1 debug type, 1 getdht type
if uint64(len(tmp))+responseOverhead > p.tun.maxSessionMTU() { if uint64(len(tmp))+responseOverhead > p.core.store.maxSessionMTU() {
break break
} }
bs = tmp bs = tmp
@ -209,7 +209,7 @@ func (p *protoHandler) _handleGetDHTResponse(key keyArray, bs []byte) {
func (p *protoHandler) _sendDebug(key keyArray, dType uint8, data []byte) { func (p *protoHandler) _sendDebug(key keyArray, dType uint8, data []byte) {
bs := append([]byte{typeSessionProto, typeProtoDebug, dType}, data...) bs := append([]byte{typeSessionProto, typeProtoDebug, dType}, data...)
_, _ = p.tun.core.WriteTo(bs, iwt.Addr(key[:])) _, _ = p.core.pc.WriteTo(bs, iwt.Addr(key[:]))
} }
// Admin socket stuff // Admin socket stuff

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@ -1,4 +1,4 @@
package tuntap package core
// Out-of-band packet types // Out-of-band packet types
const ( const (

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@ -1,157 +0,0 @@
package tuntap
import (
"crypto/ed25519"
"sync"
"time"
iwt "github.com/Arceliar/ironwood/types"
"github.com/yggdrasil-network/yggdrasil-go/src/address"
)
const keyStoreTimeout = 2 * time.Minute
type keyStore struct {
tun *TunAdapter
mutex sync.Mutex
keyToInfo map[keyArray]*keyInfo
addrToInfo map[address.Address]*keyInfo
addrBuffer map[address.Address]*buffer
subnetToInfo map[address.Subnet]*keyInfo
subnetBuffer map[address.Subnet]*buffer
}
type keyArray [ed25519.PublicKeySize]byte
type keyInfo struct {
key keyArray
address address.Address
subnet address.Subnet
timeout *time.Timer // From calling a time.AfterFunc to do cleanup
}
type buffer struct {
packets [][]byte
timeout *time.Timer
}
func (k *keyStore) init(tun *TunAdapter) {
k.tun = tun
k.keyToInfo = make(map[keyArray]*keyInfo)
k.addrToInfo = make(map[address.Address]*keyInfo)
k.addrBuffer = make(map[address.Address]*buffer)
k.subnetToInfo = make(map[address.Subnet]*keyInfo)
k.subnetBuffer = make(map[address.Subnet]*buffer)
}
func (k *keyStore) sendToAddress(addr address.Address, bs []byte) {
k.mutex.Lock()
if info := k.addrToInfo[addr]; info != nil {
k.resetTimeout(info)
k.mutex.Unlock()
_, _ = k.tun.core.WriteTo(bs, iwt.Addr(info.key[:]))
} else {
var buf *buffer
if buf = k.addrBuffer[addr]; buf == nil {
buf = new(buffer)
k.addrBuffer[addr] = buf
}
msg := append([]byte(nil), bs...)
buf.packets = append(buf.packets, msg)
if buf.timeout != nil {
buf.timeout.Stop()
}
buf.timeout = time.AfterFunc(keyStoreTimeout, func() {
k.mutex.Lock()
defer k.mutex.Unlock()
if nbuf := k.addrBuffer[addr]; nbuf == buf {
delete(k.addrBuffer, addr)
}
})
k.mutex.Unlock()
k.tun.sendKeyLookup(addr.GetKey())
}
}
func (k *keyStore) sendToSubnet(subnet address.Subnet, bs []byte) {
k.mutex.Lock()
if info := k.subnetToInfo[subnet]; info != nil {
k.resetTimeout(info)
k.mutex.Unlock()
_, _ = k.tun.core.WriteTo(bs, iwt.Addr(info.key[:]))
} else {
var buf *buffer
if buf = k.subnetBuffer[subnet]; buf == nil {
buf = new(buffer)
k.subnetBuffer[subnet] = buf
}
msg := append([]byte(nil), bs...)
buf.packets = append(buf.packets, msg)
if buf.timeout != nil {
buf.timeout.Stop()
}
buf.timeout = time.AfterFunc(keyStoreTimeout, func() {
k.mutex.Lock()
defer k.mutex.Unlock()
if nbuf := k.subnetBuffer[subnet]; nbuf == buf {
delete(k.subnetBuffer, subnet)
}
})
k.mutex.Unlock()
k.tun.sendKeyLookup(subnet.GetKey())
}
}
func (k *keyStore) update(key ed25519.PublicKey) *keyInfo {
k.mutex.Lock()
var kArray keyArray
copy(kArray[:], key)
var info *keyInfo
if info = k.keyToInfo[kArray]; info == nil {
info = new(keyInfo)
info.key = kArray
info.address = *address.AddrForKey(ed25519.PublicKey(info.key[:]))
info.subnet = *address.SubnetForKey(ed25519.PublicKey(info.key[:]))
k.keyToInfo[info.key] = info
k.addrToInfo[info.address] = info
k.subnetToInfo[info.subnet] = info
k.resetTimeout(info)
k.mutex.Unlock()
if buf := k.addrBuffer[info.address]; buf != nil {
for _, bs := range buf.packets {
_, _ = k.tun.core.WriteTo(bs, iwt.Addr(info.key[:]))
}
delete(k.addrBuffer, info.address)
}
if buf := k.subnetBuffer[info.subnet]; buf != nil {
for _, bs := range buf.packets {
_, _ = k.tun.core.WriteTo(bs, iwt.Addr(info.key[:]))
}
delete(k.subnetBuffer, info.subnet)
}
} else {
k.resetTimeout(info)
k.mutex.Unlock()
}
return info
}
func (k *keyStore) resetTimeout(info *keyInfo) {
if info.timeout != nil {
info.timeout.Stop()
}
info.timeout = time.AfterFunc(keyStoreTimeout, func() {
k.mutex.Lock()
defer k.mutex.Unlock()
if nfo := k.keyToInfo[info.key]; nfo == info {
delete(k.keyToInfo, info.key)
}
if nfo := k.addrToInfo[info.address]; nfo == info {
delete(k.addrToInfo, info.address)
}
if nfo := k.subnetToInfo[info.subnet]; nfo == info {
delete(k.subnetToInfo, info.subnet)
}
})
}

View File

@ -189,41 +189,3 @@ func (tun *TunAdapter) _stop() error {
return nil return nil
} }
func (tun *TunAdapter) oobHandler(fromKey, toKey ed25519.PublicKey, data []byte) {
if len(data) != 1+ed25519.SignatureSize {
return
}
sig := data[1:]
switch data[0] {
case typeKeyLookup:
snet := *address.SubnetForKey(toKey)
if snet == tun.subnet && ed25519.Verify(fromKey, toKey[:], sig) {
// This is looking for at least our subnet (possibly our address)
// Send a response
tun.sendKeyResponse(fromKey)
}
case typeKeyResponse:
// TODO keep a list of something to match against...
// Ignore the response if it doesn't match anything of interest...
if ed25519.Verify(fromKey, toKey[:], sig) {
tun.store.update(fromKey)
}
}
}
func (tun *TunAdapter) sendKeyLookup(partial ed25519.PublicKey) {
sig := ed25519.Sign(tun.core.PrivateKey(), partial[:])
bs := append([]byte{typeKeyLookup}, sig...)
_ = tun.core.SendOutOfBand(partial, bs)
}
func (tun *TunAdapter) sendKeyResponse(dest ed25519.PublicKey) {
sig := ed25519.Sign(tun.core.PrivateKey(), dest[:])
bs := append([]byte{typeKeyResponse}, sig...)
_ = tun.core.SendOutOfBand(dest, bs)
}
func (tun *TunAdapter) maxSessionMTU() uint64 {
const sessionTypeOverhead = 1
return tun.core.MTU() - sessionTypeOverhead
}