sing-box/transport/wireguard/resolve.go

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package wireguard
import (
"context"
"encoding/base64"
"encoding/hex"
"net/netip"
"github.com/sagernet/sing-box/adapter"
"github.com/sagernet/sing-box/option"
2024-11-01 16:39:02 +00:00
"github.com/sagernet/sing-dns"
E "github.com/sagernet/sing/common/exceptions"
M "github.com/sagernet/sing/common/metadata"
)
type PeerConfig struct {
destination M.Socksaddr
domainStrategy dns.DomainStrategy
Endpoint netip.AddrPort
PublicKey string
PreSharedKey string
AllowedIPs []string
Reserved [3]uint8
}
func (c PeerConfig) GenerateIpcLines() string {
ipcLines := "\npublic_key=" + c.PublicKey
ipcLines += "\nendpoint=" + c.Endpoint.String()
if c.PreSharedKey != "" {
ipcLines += "\npreshared_key=" + c.PreSharedKey
}
for _, allowedIP := range c.AllowedIPs {
ipcLines += "\nallowed_ip=" + allowedIP
}
return ipcLines
}
func ParsePeers(options option.WireGuardOutboundOptions) ([]PeerConfig, error) {
var peers []PeerConfig
if len(options.Peers) > 0 {
for peerIndex, rawPeer := range options.Peers {
peer := PeerConfig{
AllowedIPs: rawPeer.AllowedIPs,
}
destination := rawPeer.ServerOptions.Build()
if destination.IsFqdn() {
peer.destination = destination
peer.domainStrategy = dns.DomainStrategy(options.DomainStrategy)
} else {
peer.Endpoint = destination.AddrPort()
}
{
bytes, err := base64.StdEncoding.DecodeString(rawPeer.PublicKey)
if err != nil {
return nil, E.Cause(err, "decode public key for peer ", peerIndex)
}
peer.PublicKey = hex.EncodeToString(bytes)
}
if rawPeer.PreSharedKey != "" {
bytes, err := base64.StdEncoding.DecodeString(rawPeer.PreSharedKey)
if err != nil {
return nil, E.Cause(err, "decode pre shared key for peer ", peerIndex)
}
peer.PreSharedKey = hex.EncodeToString(bytes)
}
if len(rawPeer.AllowedIPs) == 0 {
return nil, E.New("missing allowed_ips for peer ", peerIndex)
}
if len(rawPeer.Reserved) > 0 {
if len(rawPeer.Reserved) != 3 {
return nil, E.New("invalid reserved value for peer ", peerIndex, ", required 3 bytes, got ", len(peer.Reserved))
}
copy(peer.Reserved[:], options.Reserved)
}
peers = append(peers, peer)
}
} else {
peer := PeerConfig{}
var (
addressHas4 bool
addressHas6 bool
)
for _, localAddress := range options.LocalAddress {
if localAddress.Addr().Is4() {
addressHas4 = true
} else {
addressHas6 = true
}
}
if addressHas4 {
peer.AllowedIPs = append(peer.AllowedIPs, netip.PrefixFrom(netip.IPv4Unspecified(), 0).String())
}
if addressHas6 {
peer.AllowedIPs = append(peer.AllowedIPs, netip.PrefixFrom(netip.IPv6Unspecified(), 0).String())
}
destination := options.ServerOptions.Build()
if destination.IsFqdn() {
peer.destination = destination
peer.domainStrategy = dns.DomainStrategy(options.DomainStrategy)
} else {
peer.Endpoint = destination.AddrPort()
}
{
bytes, err := base64.StdEncoding.DecodeString(options.PeerPublicKey)
if err != nil {
return nil, E.Cause(err, "decode peer public key")
}
peer.PublicKey = hex.EncodeToString(bytes)
}
if options.PreSharedKey != "" {
bytes, err := base64.StdEncoding.DecodeString(options.PreSharedKey)
if err != nil {
return nil, E.Cause(err, "decode pre shared key")
}
peer.PreSharedKey = hex.EncodeToString(bytes)
}
if len(options.Reserved) > 0 {
if len(options.Reserved) != 3 {
return nil, E.New("invalid reserved value, required 3 bytes, got ", len(peer.Reserved))
}
copy(peer.Reserved[:], options.Reserved)
}
peers = append(peers, peer)
}
return peers, nil
}
func ResolvePeers(ctx context.Context, router adapter.Router, peers []PeerConfig) error {
for peerIndex, peer := range peers {
if peer.Endpoint.IsValid() {
continue
}
destinationAddresses, err := router.Lookup(ctx, peer.destination.Fqdn, peer.domainStrategy)
if err != nil {
if len(peers) == 1 {
return E.Cause(err, "resolve endpoint domain")
} else {
return E.Cause(err, "resolve endpoint domain for peer ", peerIndex)
}
}
if len(destinationAddresses) == 0 {
return E.New("no addresses found for endpoint domain: ", peer.destination.Fqdn)
}
peers[peerIndex].Endpoint = netip.AddrPortFrom(destinationAddresses[0], peer.destination.Port)
}
return nil
}