Files
x/internal/util/ss/none/cipher.go
T
ginuerzh a86b5ab66b feat(ss): support none/dummy cipher via no-op AEAD implementation
The go-gost fork of go-shadowsocks2 dropped built-in support for the
none/dummy cipher that was present in the original go-shadowsocks2.
Combined with the SS components' hard requirement for auth (and
therefore a valid cipher), this made gost fail to start with
method=none or method=dummy.

Add a no-op cipher in x/internal/util/ss/none/ that implements the
core.ShadowCipher interface using the standard go-shadowsocks2 AEAD
framing (salt + length-prefixed chunks, target address embedding)
without actual encryption.  SaltSize=16 ensures random salts on every
connection to avoid bloom-ring replay detection.

Update SS TCP connector/handler and SS UDP connector/handler to detect
method=none/dummy (case-insensitive) and use the no-op cipher instead
of utils.NewClientConfig/NewServerConfig.

Fixes go-gost/x#105
2026-06-17 22:18:23 +08:00

66 lines
2.2 KiB
Go

package none
import (
"crypto/cipher"
"net"
"time"
"github.com/go-gost/go-shadowsocks2/core"
"github.com/go-gost/go-shadowsocks2/shadowaead"
)
// Cipher is a no-op Shadowsocks cipher that passes data through without
// encryption. It supports both TCP and UDP via the standard go-shadowsocks2
// ShadowCipher interface. The SS protocol framing (length-prefixed chunks)
// is preserved, but no encryption or authentication is applied.
var Cipher core.ShadowCipher = &noneCipher{}
type noneCipher struct{}
// SaltSize returns a non-zero value so the go-shadowsocks2 bloom ring
// does not reject every connection as a repeated salt. The 16-byte salt
// is generated randomly and is not used for any actual key derivation.
func (noneCipher) SaltSize() int { return 16 }
// KeySize returns 0 since no encryption key is used.
func (noneCipher) KeySize() int { return 0 }
// NonceSize returns 0 since no nonce is used.
func (noneCipher) NonceSize() int { return 0 }
// TagSize returns 0 since no authentication tag is used.
func (noneCipher) TagSize() int { return 0 }
// Key returns nil.
func (noneCipher) Key() []byte { return nil }
// Keys returns nil.
func (noneCipher) Keys() [][]byte { return nil }
// FirstKey returns nil.
func (noneCipher) FirstKey() []byte { return nil }
// Encrypter returns a no-op AEAD.
func (noneCipher) Encrypter(key, salt []byte) (cipher.AEAD, error) {
return noopAEAD{}, nil
}
// Decrypter returns a no-op AEAD.
func (noneCipher) Decrypter(key, salt []byte) (cipher.AEAD, error) {
return noopAEAD{}, nil
}
// TCPConn wraps a net.Conn with the no-op cipher using the standard
// go-shadowsocks2 AEAD stream connection. The SS protocol framing
// (salt + length-prefixed chunks) is preserved but unencrypted.
func (c noneCipher) TCPConn(conn net.Conn, users []core.UserConfig, role int) core.TCPConn {
return shadowaead.NewConn(conn, c)
}
// NewUDPSessionManager creates a UDP session manager using the standard
// go-shadowsocks2 AEAD UDP implementation. Packets are framed but
// unencrypted.
func (c noneCipher) NewUDPSessionManager(timeout time.Duration, users []core.UserConfig, windowSize, role int) core.UDPSessionManager {
return shadowaead.NewAEADSessionManager(c, timeout, role)
}