package crypto import ( "crypto/cipher" "io" "v2ray.com/core/common" "v2ray.com/core/common/buf" "v2ray.com/core/common/protocol" ) type BytesGenerator interface { Next() []byte } type NoOpBytesGenerator struct { buffer [1]byte } func (v NoOpBytesGenerator) Next() []byte { return v.buffer[:0] } type StaticBytesGenerator struct { Content []byte } func (v StaticBytesGenerator) Next() []byte { return v.Content } type IncreasingAEADNonceGenerator struct { nonce []byte } func NewIncreasingAEADNonceGenerator() *IncreasingAEADNonceGenerator { return &IncreasingAEADNonceGenerator{ nonce: []byte{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}, } } func (g *IncreasingAEADNonceGenerator) Next() []byte { for i := range g.nonce { g.nonce[i]++ if g.nonce[i] != 0 { break } } return g.nonce } type Authenticator interface { NonceSize() int Overhead() int Open(dst, cipherText []byte) ([]byte, error) Seal(dst, plainText []byte) ([]byte, error) } type AEADAuthenticator struct { cipher.AEAD NonceGenerator BytesGenerator AdditionalDataGenerator BytesGenerator } func (v *AEADAuthenticator) Open(dst, cipherText []byte) ([]byte, error) { iv := v.NonceGenerator.Next() if len(iv) != v.AEAD.NonceSize() { return nil, newError("invalid AEAD nonce size: ", len(iv)) } var additionalData []byte if v.AdditionalDataGenerator != nil { additionalData = v.AdditionalDataGenerator.Next() } return v.AEAD.Open(dst, iv, cipherText, additionalData) } func (v *AEADAuthenticator) Seal(dst, plainText []byte) ([]byte, error) { iv := v.NonceGenerator.Next() if len(iv) != v.AEAD.NonceSize() { return nil, newError("invalid AEAD nonce size: ", len(iv)) } var additionalData []byte if v.AdditionalDataGenerator != nil { additionalData = v.AdditionalDataGenerator.Next() } return v.AEAD.Seal(dst, iv, plainText, additionalData), nil } type AuthenticationReader struct { auth Authenticator reader *buf.BufferedReader sizeParser ChunkSizeDecoder transferType protocol.TransferType size int32 } func NewAuthenticationReader(auth Authenticator, sizeParser ChunkSizeDecoder, reader io.Reader, transferType protocol.TransferType) *AuthenticationReader { return &AuthenticationReader{ auth: auth, reader: buf.NewBufferedReader(buf.NewReader(reader)), sizeParser: sizeParser, transferType: transferType, size: -1, } } func (r *AuthenticationReader) readSize() (int32, error) { if r.size != -1 { s := r.size r.size = -1 return s, nil } sizeBytes := make([]byte, r.sizeParser.SizeBytes()) _, err := io.ReadFull(r.reader, sizeBytes) if err != nil { return 0, err } size, err := r.sizeParser.Decode(sizeBytes) return int32(size), err } var errSoft = newError("waiting for more data") func (r *AuthenticationReader) readInternal(soft bool) (*buf.Buffer, error) { if soft && r.reader.BufferedBytes() < int32(r.sizeParser.SizeBytes()) { return nil, errSoft } size, err := r.readSize() if err != nil { return nil, err } if size == -2 || size == int32(r.auth.Overhead()) { r.size = -2 return nil, io.EOF } if soft && size > r.reader.BufferedBytes() { r.size = size return nil, errSoft } b := buf.NewSize(size) if err := b.Reset(buf.ReadFullFrom(r.reader, size)); err != nil { b.Release() return nil, err } rb, err := r.auth.Open(b.BytesTo(0), b.BytesTo(size)) if err != nil { b.Release() return nil, err } b.Slice(0, int32(len(rb))) return b, nil } func (r *AuthenticationReader) ReadMultiBuffer() (buf.MultiBuffer, error) { b, err := r.readInternal(false) if err != nil { return nil, err } mb := buf.NewMultiBufferCap(32) mb.Append(b) for { b, err := r.readInternal(true) if err == errSoft || err == io.EOF { break } if err != nil { mb.Release() return nil, err } mb.Append(b) } return mb, nil } type AuthenticationWriter struct { auth Authenticator writer buf.Writer sizeParser ChunkSizeEncoder transferType protocol.TransferType } func NewAuthenticationWriter(auth Authenticator, sizeParser ChunkSizeEncoder, writer io.Writer, transferType protocol.TransferType) *AuthenticationWriter { return &AuthenticationWriter{ auth: auth, writer: buf.NewWriter(writer), sizeParser: sizeParser, transferType: transferType, } } func (w *AuthenticationWriter) seal(b *buf.Buffer) (*buf.Buffer, error) { encryptedSize := int(b.Len()) + w.auth.Overhead() eb := buf.New() common.Must(eb.Reset(func(bb []byte) (int, error) { w.sizeParser.Encode(uint16(encryptedSize), bb[:0]) return int(w.sizeParser.SizeBytes()), nil })) if err := eb.AppendSupplier(func(bb []byte) (int, error) { _, err := w.auth.Seal(bb[:0], b.Bytes()) return encryptedSize, err }); err != nil { eb.Release() return nil, err } return eb, nil } func (w *AuthenticationWriter) writeStream(mb buf.MultiBuffer) error { defer mb.Release() payloadSize := buf.Size - int32(w.auth.Overhead()) - w.sizeParser.SizeBytes() mb2Write := buf.NewMultiBufferCap(int32(len(mb) + 10)) for { b := buf.New() common.Must(b.Reset(func(bb []byte) (int, error) { return mb.Read(bb[:payloadSize]) })) eb, err := w.seal(b) b.Release() if err != nil { mb2Write.Release() return err } mb2Write.Append(eb) if mb.IsEmpty() { break } } return w.writer.WriteMultiBuffer(mb2Write) } func (w *AuthenticationWriter) writePacket(mb buf.MultiBuffer) error { defer mb.Release() if mb.IsEmpty() { b := buf.New() defer b.Release() eb, _ := w.seal(b) return w.writer.WriteMultiBuffer(buf.NewMultiBufferValue(eb)) } mb2Write := buf.NewMultiBufferCap(int32(len(mb)) + 1) for !mb.IsEmpty() { b := mb.SplitFirst() if b == nil { continue } eb, err := w.seal(b) b.Release() if err != nil { mb2Write.Release() return err } mb2Write.Append(eb) } return w.writer.WriteMultiBuffer(mb2Write) } func (w *AuthenticationWriter) WriteMultiBuffer(mb buf.MultiBuffer) error { if w.transferType == protocol.TransferTypeStream { return w.writeStream(mb) } return w.writePacket(mb) }