package kcp import ( "crypto/cipher" "crypto/rand" "io" "v2ray.com/core/transport/internet" ) type PacketReader interface { Read([]byte) []Segment } type PacketWriter interface { Overhead() int io.Writer } type KCPPacketReader struct { Security cipher.AEAD Header internet.PacketHeader } func (v *KCPPacketReader) Read(b []byte) []Segment { if v.Header != nil { b = b[v.Header.Size():] } if v.Security != nil { nonceSize := v.Security.NonceSize() out, err := v.Security.Open(b[nonceSize:nonceSize], b[:nonceSize], b[nonceSize:], nil) if err != nil { return nil } b = out } var result []Segment for len(b) > 0 { seg, x := ReadSegment(b) if seg == nil { break } result = append(result, seg) b = x } return result } type KCPPacketWriter struct { Header internet.PacketHeader Security cipher.AEAD Writer io.Writer buffer [32 * 1024]byte } func (v *KCPPacketWriter) Overhead() int { overhead := 0 if v.Header != nil { overhead += v.Header.Size() } if v.Security != nil { overhead += v.Security.Overhead() } return overhead } func (v *KCPPacketWriter) Write(b []byte) (int, error) { x := v.buffer[:] size := 0 if v.Header != nil { nBytes, _ := v.Header.Write(x) size += nBytes x = x[nBytes:] } if v.Security != nil { nonceSize := v.Security.NonceSize() var nonce []byte if nonceSize > 0 { nonce = x[:nonceSize] rand.Read(nonce) x = x[nonceSize:] } x = v.Security.Seal(x[:0], nonce, b, nil) size += nonceSize + len(x) } else { size += copy(x, b) } _, err := v.Writer.Write(v.buffer[:size]) return len(b), err }