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pair-verify.go
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pair-verify.go
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package hap
import (
"github.com/LUJUNQUAN/hap/chacha20poly1305"
"github.com/LUJUNQUAN/hap/curve25519"
"github.com/LUJUNQUAN/hap/ed25519"
"github.com/LUJUNQUAN/hap/hkdf"
"github.com/LUJUNQUAN/hap/log"
"github.com/LUJUNQUAN/hap/tlv8"
"net/http"
)
type pairVerifyPayload struct {
Method byte `tlv8:"0,optional"`
Identifier string `tlv8:"1,optional"`
PublicKey []byte `tlv8:"3,optional"`
EncryptedData []byte `tlv8:"5,optional"`
State byte `tlv8:"6,optional"`
Signature []byte `tlv8:"10,optional"`
}
type pairVerifySession struct {
OtherPublicKey []byte
PublicKey [32]byte
PrivateKey [32]byte
SharedKey [32]byte
EncryptionKey [32]byte
}
func (srv *Server) pairVerify(res http.ResponseWriter, req *http.Request) {
data := pairVerifyPayload{}
if err := tlv8.UnmarshalReader(req.Body, &data); err != nil {
log.Info.Println("tlv8:", err)
tlv8Error(res, data.State+1, TlvErrorUnknown)
return
}
switch data.Method {
case MethodPair:
switch data.State {
case M1:
srv.pairVerifyM1(res, req, data)
case M3:
srv.pairVerifyM3(res, req, data)
default:
log.Info.Println("invalid state", data.State)
res.WriteHeader(http.StatusBadRequest)
tlv8Error(res, data.State+1, TlvErrorUnknown)
}
default:
log.Info.Println("pair verify: invalid method", data.Method)
res.WriteHeader(http.StatusBadRequest)
tlv8Error(res, 0, TlvErrorInvalidRequest)
}
}
func (srv *Server) pairVerifyM1(res http.ResponseWriter, req *http.Request, data pairVerifyPayload) {
var otherPublicKey [32]byte
copy(otherPublicKey[:], data.PublicKey)
// Generate the key pair.
publicKey, privateKey := curve25519.GenerateKeyPair()
sharedKey := curve25519.SharedSecret(privateKey, otherPublicKey)
encKey, err := hkdf.Sha512(sharedKey[:], []byte("Pair-Verify-Encrypt-Salt"), []byte("Pair-Verify-Encrypt-Info"))
if err != nil {
log.Info.Println(err)
res.WriteHeader(http.StatusInternalServerError)
tlv8Error(res, M2, TlvErrorUnknown)
return
}
var buf []byte
buf = append(buf, publicKey[:]...)
buf = append(buf, srv.uuid...)
buf = append(buf, data.PublicKey[:]...)
signature, err := ed25519.Signature(srv.Key.Private[:], buf)
if err != nil {
log.Info.Println(err)
tlv8Error(res, M2, TlvErrorUnknown)
return
}
enData := struct {
Identifier string `tlv8:"1"`
Signature []byte `tlv8:"10"`
}{
Identifier: srv.uuid,
Signature: signature,
}
b, err := tlv8.Marshal(enData)
if err != nil {
log.Info.Println("tlv8:", err)
res.WriteHeader(http.StatusBadRequest)
tlv8Error(res, M2, TlvErrorUnknown)
return
}
encBuf, mac, _ := chacha20poly1305.EncryptAndSeal(encKey[:], []byte("PV-Msg02"), b, nil)
resp := struct {
State byte `tlv8:"6"`
PublicKey []byte `tlv8:"3"`
EncryptedData []byte `tlv8:"5"`
}{
State: M2,
PublicKey: publicKey[:],
EncryptedData: append(encBuf, mac[:]...),
}
tlv8OK(res, resp)
// Save the keys in a session and store the session for the request.
ses := &pairVerifySession{
OtherPublicKey: data.PublicKey,
PublicKey: publicKey,
PrivateKey: privateKey,
SharedKey: sharedKey,
EncryptionKey: encKey,
}
srv.setSession(req.RemoteAddr, ses)
}
func (srv *Server) pairVerifyM3(res http.ResponseWriter, req *http.Request, data pairVerifyPayload) {
// Get the session for the request.
ses, err := srv.getPairVerifySession(req.RemoteAddr)
if err != nil {
log.Info.Println(err)
res.WriteHeader(http.StatusInternalServerError)
tlv8Error(res, M4, TlvErrorUnknown)
return
}
msg := data.EncryptedData[:len(data.EncryptedData)-16]
var mac [16]byte
copy(mac[:], data.EncryptedData[len(msg):]) // 16 byte (MAC)
enc, err := chacha20poly1305.DecryptAndVerify(ses.EncryptionKey[:], []byte("PV-Msg03"), msg, mac, nil)
if err != nil {
log.Info.Println(err)
tlv8Error(res, M4, TlvErrorAuthentication)
return
}
encData := pairVerifyPayload{}
if err := tlv8.Unmarshal(enc, &encData); err != nil {
log.Info.Println("tlv8:", err)
tlv8Error(res, M4, TlvErrorUnknown)
return
}
pairing, err := srv.st.Pairing(encData.Identifier)
if err != nil {
log.Info.Printf("not paired with %s yet\n", encData.Identifier)
tlv8Error(res, M4, TlvErrorAuthentication)
return
}
var buf []byte
buf = append(buf, ses.OtherPublicKey[:]...)
buf = append(buf, []byte(encData.Identifier)...)
buf = append(buf, ses.PublicKey[:]...)
if !ed25519.ValidateSignature(pairing.PublicKey[:], buf, encData.Signature) {
log.Info.Println("signature is invalid")
tlv8Error(res, M4, TlvErrorUnknownPeer)
return
}
resp := struct {
State byte `tlv8:"6"`
}{
State: M4,
}
tlv8OK(res, resp)
// Store the negotiated keys in a session.
ss, err := newSession(ses.SharedKey, pairing)
if err != nil {
log.Info.Println(err)
return
}
// Store the session for the request.
srv.setSession(req.RemoteAddr, ss)
conn := getConn(req)
if conn == nil {
log.Info.Printf("no connection for %s\n", req.RemoteAddr)
return
}
// Upgrade the connection to use encryption.
conn.Upgrade(ss)
}