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365 lines
11 KiB
Go
365 lines
11 KiB
Go
// Copyright (C) 2019 ProtonTech AG
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package packet
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import (
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"bytes"
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"crypto/cipher"
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"crypto/rand"
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"encoding/binary"
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"io"
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"github.com/ProtonMail/go-crypto/openpgp/errors"
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"github.com/ProtonMail/go-crypto/openpgp/internal/algorithm"
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)
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// AEADEncrypted represents an AEAD Encrypted Packet (tag 20, RFC4880bis-5.16).
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type AEADEncrypted struct {
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cipher CipherFunction
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mode AEADMode
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chunkSizeByte byte
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Contents io.Reader // Encrypted chunks and tags
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initialNonce []byte // Referred to as IV in RFC4880-bis
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}
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// Only currently defined version
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const aeadEncryptedVersion = 1
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// An AEAD opener/sealer, its configuration, and data for en/decryption.
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type aeadCrypter struct {
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aead cipher.AEAD
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chunkSize int
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initialNonce []byte
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associatedData []byte // Chunk-independent associated data
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chunkIndex []byte // Chunk counter
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bytesProcessed int // Amount of plaintext bytes encrypted/decrypted
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buffer bytes.Buffer // Buffered bytes accross chunks
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}
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// aeadEncrypter encrypts and writes bytes. It encrypts when necessary according
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// to the AEAD block size, and buffers the extra encrypted bytes for next write.
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type aeadEncrypter struct {
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aeadCrypter // Embedded plaintext sealer
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writer io.WriteCloser // 'writer' is a partialLengthWriter
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}
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// aeadDecrypter reads and decrypts bytes. It buffers extra decrypted bytes when
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// necessary, similar to aeadEncrypter.
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type aeadDecrypter struct {
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aeadCrypter // Embedded ciphertext opener
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reader io.Reader // 'reader' is a partialLengthReader
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peekedBytes []byte // Used to detect last chunk
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eof bool
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}
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func (ae *AEADEncrypted) parse(buf io.Reader) error {
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headerData := make([]byte, 4)
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if n, err := io.ReadFull(buf, headerData); n < 4 {
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return errors.AEADError("could not read aead header:" + err.Error())
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}
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// Read initial nonce
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mode := AEADMode(headerData[2])
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nonceLen := mode.NonceLength()
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if nonceLen == 0 {
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return errors.AEADError("unknown mode")
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}
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initialNonce := make([]byte, nonceLen)
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if n, err := io.ReadFull(buf, initialNonce); n < nonceLen {
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return errors.AEADError("could not read aead nonce:" + err.Error())
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}
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ae.Contents = buf
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ae.initialNonce = initialNonce
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c := headerData[1]
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if _, ok := algorithm.CipherById[c]; !ok {
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return errors.UnsupportedError("unknown cipher: " + string(c))
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}
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ae.cipher = CipherFunction(c)
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ae.mode = mode
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ae.chunkSizeByte = byte(headerData[3])
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return nil
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}
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// Decrypt returns a io.ReadCloser from which decrypted bytes can be read, or
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// an error.
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func (ae *AEADEncrypted) Decrypt(ciph CipherFunction, key []byte) (io.ReadCloser, error) {
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return ae.decrypt(key)
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}
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// decrypt prepares an aeadCrypter and returns a ReadCloser from which
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// decrypted bytes can be read (see aeadDecrypter.Read()).
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func (ae *AEADEncrypted) decrypt(key []byte) (io.ReadCloser, error) {
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blockCipher := ae.cipher.new(key)
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aead := ae.mode.new(blockCipher)
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// Carry the first tagLen bytes
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tagLen := ae.mode.TagLength()
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peekedBytes := make([]byte, tagLen)
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n, err := io.ReadFull(ae.Contents, peekedBytes)
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if n < tagLen || (err != nil && err != io.EOF) {
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return nil, errors.AEADError("Not enough data to decrypt:" + err.Error())
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}
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chunkSize := decodeAEADChunkSize(ae.chunkSizeByte)
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return &aeadDecrypter{
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aeadCrypter: aeadCrypter{
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aead: aead,
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chunkSize: chunkSize,
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initialNonce: ae.initialNonce,
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associatedData: ae.associatedData(),
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chunkIndex: make([]byte, 8),
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},
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reader: ae.Contents,
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peekedBytes: peekedBytes}, nil
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}
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// Read decrypts bytes and reads them into dst. It decrypts when necessary and
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// buffers extra decrypted bytes. It returns the number of bytes copied into dst
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// and an error.
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func (ar *aeadDecrypter) Read(dst []byte) (n int, err error) {
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// Return buffered plaintext bytes from previous calls
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if ar.buffer.Len() > 0 {
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return ar.buffer.Read(dst)
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}
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// Return EOF if we've previously validated the final tag
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if ar.eof {
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return 0, io.EOF
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}
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// Read a chunk
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tagLen := ar.aead.Overhead()
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cipherChunkBuf := new(bytes.Buffer)
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_, errRead := io.CopyN(cipherChunkBuf, ar.reader, int64(ar.chunkSize + tagLen))
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cipherChunk := cipherChunkBuf.Bytes()
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if errRead != nil && errRead != io.EOF {
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return 0, errRead
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}
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decrypted, errChunk := ar.openChunk(cipherChunk)
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if errChunk != nil {
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return 0, errChunk
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}
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// Return decrypted bytes, buffering if necessary
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if len(dst) < len(decrypted) {
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n = copy(dst, decrypted[:len(dst)])
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ar.buffer.Write(decrypted[len(dst):])
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} else {
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n = copy(dst, decrypted)
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}
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// Check final authentication tag
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if errRead == io.EOF {
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errChunk := ar.validateFinalTag(ar.peekedBytes)
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if errChunk != nil {
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return n, errChunk
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}
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ar.eof = true // Mark EOF for when we've returned all buffered data
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}
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return
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}
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// Close is noOp. The final authentication tag of the stream was already
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// checked in the last Read call. In the future, this function could be used to
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// wipe the reader and peeked, decrypted bytes, if necessary.
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func (ar *aeadDecrypter) Close() (err error) {
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return nil
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}
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// SerializeAEADEncrypted initializes the aeadCrypter and returns a writer.
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// This writer encrypts and writes bytes (see aeadEncrypter.Write()).
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func SerializeAEADEncrypted(w io.Writer, key []byte, cipher CipherFunction, mode AEADMode, config *Config) (io.WriteCloser, error) {
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writeCloser := noOpCloser{w}
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writer, err := serializeStreamHeader(writeCloser, packetTypeAEADEncrypted)
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if err != nil {
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return nil, err
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}
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// Data for en/decryption: tag, version, cipher, aead mode, chunk size
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aeadConf := config.AEAD()
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prefix := []byte{
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0xD4,
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aeadEncryptedVersion,
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byte(config.Cipher()),
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byte(aeadConf.Mode()),
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aeadConf.ChunkSizeByte(),
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}
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n, err := writer.Write(prefix[1:])
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if err != nil || n < 4 {
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return nil, errors.AEADError("could not write AEAD headers")
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}
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// Sample nonce
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nonceLen := aeadConf.Mode().NonceLength()
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nonce := make([]byte, nonceLen)
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n, err = rand.Read(nonce)
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if err != nil {
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panic("Could not sample random nonce")
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}
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_, err = writer.Write(nonce)
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if err != nil {
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return nil, err
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}
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blockCipher := CipherFunction(config.Cipher()).new(key)
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alg := AEADMode(aeadConf.Mode()).new(blockCipher)
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chunkSize := decodeAEADChunkSize(aeadConf.ChunkSizeByte())
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return &aeadEncrypter{
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aeadCrypter: aeadCrypter{
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aead: alg,
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chunkSize: chunkSize,
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associatedData: prefix,
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chunkIndex: make([]byte, 8),
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initialNonce: nonce,
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},
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writer: writer}, nil
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}
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// Write encrypts and writes bytes. It encrypts when necessary and buffers extra
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// plaintext bytes for next call. When the stream is finished, Close() MUST be
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// called to append the final tag.
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func (aw *aeadEncrypter) Write(plaintextBytes []byte) (n int, err error) {
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// Append plaintextBytes to existing buffered bytes
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n, err = aw.buffer.Write(plaintextBytes)
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if err != nil {
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return n, err
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}
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// Encrypt and write chunks
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for aw.buffer.Len() >= aw.chunkSize {
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plainChunk := aw.buffer.Next(aw.chunkSize)
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encryptedChunk, err := aw.sealChunk(plainChunk)
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if err != nil {
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return n, err
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}
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_, err = aw.writer.Write(encryptedChunk)
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if err != nil {
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return n, err
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}
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}
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return
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}
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// Close encrypts and writes the remaining buffered plaintext if any, appends
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// the final authentication tag, and closes the embedded writer. This function
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// MUST be called at the end of a stream.
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func (aw *aeadEncrypter) Close() (err error) {
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// Encrypt and write a chunk if there's buffered data left, or if we haven't
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// written any chunks yet.
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if aw.buffer.Len() > 0 || aw.bytesProcessed == 0 {
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plainChunk := aw.buffer.Bytes()
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lastEncryptedChunk, err := aw.sealChunk(plainChunk)
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if err != nil {
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return err
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}
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_, err = aw.writer.Write(lastEncryptedChunk)
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if err != nil {
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return err
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}
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}
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// Compute final tag (associated data: packet tag, version, cipher, aead,
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// chunk size, index, total number of encrypted octets).
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adata := append(aw.associatedData[:], aw.chunkIndex[:]...)
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adata = append(adata, make([]byte, 8)...)
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binary.BigEndian.PutUint64(adata[13:], uint64(aw.bytesProcessed))
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nonce := aw.computeNextNonce()
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finalTag := aw.aead.Seal(nil, nonce, nil, adata)
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_, err = aw.writer.Write(finalTag)
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if err != nil {
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return err
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}
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return aw.writer.Close()
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}
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// sealChunk Encrypts and authenticates the given chunk.
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func (aw *aeadEncrypter) sealChunk(data []byte) ([]byte, error) {
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if len(data) > aw.chunkSize {
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return nil, errors.AEADError("chunk exceeds maximum length")
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}
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if aw.associatedData == nil {
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return nil, errors.AEADError("can't seal without headers")
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}
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adata := append(aw.associatedData, aw.chunkIndex...)
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nonce := aw.computeNextNonce()
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encrypted := aw.aead.Seal(nil, nonce, data, adata)
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aw.bytesProcessed += len(data)
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if err := aw.aeadCrypter.incrementIndex(); err != nil {
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return nil, err
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}
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return encrypted, nil
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}
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// openChunk decrypts and checks integrity of an encrypted chunk, returning
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// the underlying plaintext and an error. It access peeked bytes from next
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// chunk, to identify the last chunk and decrypt/validate accordingly.
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func (ar *aeadDecrypter) openChunk(data []byte) ([]byte, error) {
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tagLen := ar.aead.Overhead()
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// Restore carried bytes from last call
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chunkExtra := append(ar.peekedBytes, data...)
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// 'chunk' contains encrypted bytes, followed by an authentication tag.
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chunk := chunkExtra[:len(chunkExtra)-tagLen]
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ar.peekedBytes = chunkExtra[len(chunkExtra)-tagLen:]
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adata := append(ar.associatedData, ar.chunkIndex...)
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nonce := ar.computeNextNonce()
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plainChunk, err := ar.aead.Open(nil, nonce, chunk, adata)
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if err != nil {
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return nil, err
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}
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ar.bytesProcessed += len(plainChunk)
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if err = ar.aeadCrypter.incrementIndex(); err != nil {
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return nil, err
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}
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return plainChunk, nil
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}
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// Checks the summary tag. It takes into account the total decrypted bytes into
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// the associated data. It returns an error, or nil if the tag is valid.
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func (ar *aeadDecrypter) validateFinalTag(tag []byte) error {
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// Associated: tag, version, cipher, aead, chunk size, index, and octets
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amountBytes := make([]byte, 8)
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binary.BigEndian.PutUint64(amountBytes, uint64(ar.bytesProcessed))
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adata := append(ar.associatedData, ar.chunkIndex...)
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adata = append(adata, amountBytes...)
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nonce := ar.computeNextNonce()
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_, err := ar.aead.Open(nil, nonce, tag, adata)
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if err != nil {
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return err
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}
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return nil
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}
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// Associated data for chunks: tag, version, cipher, mode, chunk size byte
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func (ae *AEADEncrypted) associatedData() []byte {
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return []byte{
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0xD4,
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aeadEncryptedVersion,
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byte(ae.cipher),
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byte(ae.mode),
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ae.chunkSizeByte}
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}
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// computeNonce takes the incremental index and computes an eXclusive OR with
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// the least significant 8 bytes of the receivers' initial nonce (see sec.
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// 5.16.1 and 5.16.2). It returns the resulting nonce.
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func (wo *aeadCrypter) computeNextNonce() (nonce []byte) {
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nonce = make([]byte, len(wo.initialNonce))
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copy(nonce, wo.initialNonce)
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offset := len(wo.initialNonce) - 8
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for i := 0; i < 8; i++ {
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nonce[i+offset] ^= wo.chunkIndex[i]
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}
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return
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}
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// incrementIndex perfoms an integer increment by 1 of the integer represented by the
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// slice, modifying it accordingly.
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func (wo *aeadCrypter) incrementIndex() error {
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index := wo.chunkIndex
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if len(index) == 0 {
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return errors.AEADError("Index has length 0")
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}
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for i := len(index) - 1; i >= 0; i-- {
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if index[i] < 255 {
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index[i]++
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return nil
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}
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index[i] = 0
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}
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return errors.AEADError("cannot further increment index")
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}
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