yggdrasil-go/src/ipv6rwc/ipv6rwc.go

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package ipv6rwc
import (
"crypto/ed25519"
"errors"
"fmt"
"net"
"sync"
"time"
"golang.org/x/net/icmp"
"golang.org/x/net/ipv6"
iwt "github.com/Arceliar/ironwood/types"
"github.com/yggdrasil-network/yggdrasil-go/src/address"
"github.com/yggdrasil-network/yggdrasil-go/src/core"
)
const keyStoreTimeout = 2 * time.Minute
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/*
// Out-of-band packet types
const (
typeKeyDummy = iota // nolint:deadcode,varcheck
typeKeyLookup
typeKeyResponse
)
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*/
type keyArray [ed25519.PublicKeySize]byte
type keyStore struct {
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core *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
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mtu uint64
}
type keyInfo struct {
key keyArray
address address.Address
subnet address.Subnet
timeout *time.Timer // From calling a time.AfterFunc to do cleanup
}
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/*
type buffer struct {
packet []byte
timeout *time.Timer
}
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*/
func (k *keyStore) init(c *core.Core) {
k.core = c
k.address = *address.AddrForKey(k.core.PublicKey())
k.subnet = *address.SubnetForKey(k.core.PublicKey())
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/*if err := k.core.SetOutOfBandHandler(k.oobHandler); err != nil {
err = fmt.Errorf("tun.core.SetOutOfBandHander: %w", err)
panic(err)
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}*/
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)
k.mtu = 1280 // Default to something safe, expect user to set this
}
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.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.packet = 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())
*/
k.mutex.Unlock()
key := k.core.GetKeyFor(addr.GetKey())
info := k.update(key)
if info.address == addr {
_, _ = k.core.WriteTo(bs, iwt.Addr(info.key[:]))
}
}
}
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.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.packet = 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())
*/
k.mutex.Unlock()
key := k.core.GetKeyFor(subnet.GetKey())
info := k.update(key)
if info.subnet == subnet {
_, _ = k.core.WriteTo(bs, iwt.Addr(info.key[:]))
}
}
}
func (k *keyStore) update(key ed25519.PublicKey) *keyInfo {
k.mutex.Lock()
var kArray keyArray
copy(kArray[:], key)
var info *keyInfo
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var packets [][]byte
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
/*
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if buf := k.addrBuffer[info.address]; buf != nil {
packets = append(packets, buf.packet)
delete(k.addrBuffer, info.address)
}
if buf := k.subnetBuffer[info.subnet]; buf != nil {
packets = append(packets, buf.packet)
delete(k.subnetBuffer, info.subnet)
}
*/
}
k.resetTimeout(info)
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k.mutex.Unlock()
for _, packet := range packets {
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_, _ = k.core.WriteTo(packet, iwt.Addr(info.key[:]))
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}
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)
}
})
}
/*
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func (k *keyStore) oobHandler(fromKey, toKey ed25519.PublicKey, data []byte) { // nolint:unused
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)
}
}
}
*/
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/*
func (k *keyStore) sendKeyLookup(partial ed25519.PublicKey) {
sig := ed25519.Sign(k.core.PrivateKey(), partial[:])
bs := append([]byte{typeKeyLookup}, sig...)
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//_ = k.core.SendOutOfBand(partial, bs)
_ = bs
}
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func (k *keyStore) sendKeyResponse(dest ed25519.PublicKey) { // nolint:unused
sig := ed25519.Sign(k.core.PrivateKey(), dest[:])
bs := append([]byte{typeKeyResponse}, sig...)
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//_ = k.core.SendOutOfBand(dest, bs)
_ = bs
}
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*/
func (k *keyStore) readPC(p []byte) (int, error) {
buf := make([]byte, k.core.MTU(), 65535)
for {
bs := buf
n, from, err := k.core.ReadFrom(bs)
if err != nil {
return n, err
}
if n == 0 {
continue
}
bs = bs[:n]
if len(bs) == 0 {
continue
}
if bs[0]&0xf0 != 0x60 {
continue // not IPv6
}
if len(bs) < 40 {
continue
}
k.mutex.Lock()
mtu := int(k.mtu)
k.mutex.Unlock()
if len(bs) > mtu {
// Using bs would make it leak off the stack, so copy to buf
buf := make([]byte, 512)
cn := copy(buf, bs)
ptb := &icmp.PacketTooBig{
MTU: mtu,
Data: buf[:cn],
}
if packet, err := CreateICMPv6(buf[8:24], buf[24:40], ipv6.ICMPTypePacketTooBig, 0, ptb); err == nil {
_, _ = k.writePC(packet)
}
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 {
// This happens all the time due to link-local traffic
// Don't send back an error, just drop it
strErr := fmt.Sprint("incorrect source address: ", net.IP(srcAddr[:]).String())
return 0, errors.New(strErr)
}
if dstAddr.IsValid() {
k.sendToAddress(dstAddr, bs)
} else if dstSubnet.IsValid() {
k.sendToSubnet(dstSubnet, bs)
} else {
return 0, errors.New("invalid destination address")
}
return len(bs), nil
}
// Exported API
func (k *keyStore) MaxMTU() uint64 {
return k.core.MTU()
}
func (k *keyStore) SetMTU(mtu uint64) {
if mtu > k.MaxMTU() {
mtu = k.MaxMTU()
}
if mtu < 1280 {
mtu = 1280
}
k.mutex.Lock()
k.mtu = mtu
k.mutex.Unlock()
}
func (k *keyStore) MTU() uint64 {
k.mutex.Lock()
mtu := k.mtu
k.mutex.Unlock()
return mtu
}
type ReadWriteCloser struct {
keyStore
}
func NewReadWriteCloser(c *core.Core) *ReadWriteCloser {
rwc := new(ReadWriteCloser)
rwc.init(c)
return rwc
}
func (rwc *ReadWriteCloser) Address() address.Address {
return rwc.address
}
func (rwc *ReadWriteCloser) Subnet() address.Subnet {
return rwc.subnet
}
func (rwc *ReadWriteCloser) Read(p []byte) (n int, err error) {
return rwc.readPC(p)
}
func (rwc *ReadWriteCloser) Write(p []byte) (n int, err error) {
return rwc.writePC(p)
}
func (rwc *ReadWriteCloser) Close() error {
err := rwc.core.Close()
rwc.core.Stop()
return err
}