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restic/crypto.go
Alexander Neumann 662e07d17a Refactor crypto layer, switch HMAC for Poyl1305-AES
HMAC-SHA256 calls SHA256() twice which is very expensive. Therefore,
this commit uses Poly1305-AES instead of HMAC-SHA256.

benchcmp:

     benchmark                         old ns/op      new ns/op      delta
     BenchmarkChunkEncrypt             261033772      195114818      -25.25%
     BenchmarkChunkEncryptParallel     260973195      195787368      -24.98%
     BenchmarkArchiveDirectory         1050500651     1002615884     -4.56%
     BenchmarkPreload                  23544286       24994508       +6.16%
     BenchmarkLoadTree                 350065         427665         +22.17%
     BenchmarkEncryptWriter            87789753       31069126       -64.61%
     BenchmarkEncrypt                  88283197       38259043       -56.66%
     BenchmarkDecryptReader            90478843       40714818       -55.00%
     BenchmarkEncryptDecryptReader     179917626      81231730       -54.85%
     BenchmarkDecrypt                  87871591       37784207       -57.00%
     BenchmarkSaveJSON                 52481          56861          +8.35%
     BenchmarkSaveFrom                 75404085       51108596       -32.22%
     BenchmarkLoadJSONID               90545437       82696805       -8.67%

     benchmark                         old MB/s     new MB/s     speedup
     BenchmarkChunkEncrypt             40.17        53.74        1.34x
     BenchmarkChunkEncryptParallel     40.18        53.56        1.33x
     BenchmarkEncryptWriter            95.55        270.00       2.83x
     BenchmarkEncrypt                  95.02        219.26       2.31x
     BenchmarkDecryptReader            92.71        206.03       2.22x
     BenchmarkEncryptDecryptReader     46.62        103.27       2.22x
     BenchmarkDecrypt                  95.46        222.01       2.33x
     BenchmarkSaveFrom                 55.62        82.07        1.48x

     benchmark                         old allocs     new allocs     delta
     BenchmarkChunkEncrypt             112            110            -1.79%
     BenchmarkChunkEncryptParallel     103            100            -2.91%
     BenchmarkArchiveDirectory         383704         392083         +2.18%
     BenchmarkPreload                  21765          21874          +0.50%
     BenchmarkLoadTree                 341            436            +27.86%
     BenchmarkEncryptWriter            20             17             -15.00%
     BenchmarkEncrypt                  14             13             -7.14%
     BenchmarkDecryptReader            18             15             -16.67%
     BenchmarkEncryptDecryptReader     46             39             -15.22%
     BenchmarkDecrypt                  16             12             -25.00%
     BenchmarkSaveJSON                 81             86             +6.17%
     BenchmarkSaveFrom                 117            121            +3.42%
     BenchmarkLoadJSONID               80525          80264          -0.32%

     benchmark                         old bytes     new bytes     delta
     BenchmarkChunkEncrypt             118956        64697         -45.61%
     BenchmarkChunkEncryptParallel     118972        64681         -45.63%
     BenchmarkArchiveDirectory         160236600     177498232     +10.77%
     BenchmarkPreload                  2772488       3302992       +19.13%
     BenchmarkLoadTree                 49102         46484         -5.33%
     BenchmarkEncryptWriter            28927         8388146       +28897.64%
     BenchmarkEncrypt                  2473          1950          -21.15%
     BenchmarkDecryptReader            527827        2774          -99.47%
     BenchmarkEncryptDecryptReader     4100875       1528036       -62.74%
     BenchmarkDecrypt                  2509          2154          -14.15%
     BenchmarkSaveJSON                 4971          5892          +18.53%
     BenchmarkSaveFrom                 40117         31742         -20.88%
     BenchmarkLoadJSONID               9444217       9442106       -0.02%

This closes #102.
2015-03-14 20:00:41 +01:00

421 lines
8.6 KiB
Go

package restic
import (
"bytes"
"crypto/aes"
"crypto/cipher"
"crypto/rand"
"fmt"
"io"
"io/ioutil"
"sync"
"golang.org/x/crypto/poly1305"
"golang.org/x/crypto/scrypt"
)
const (
AESKeySize = 32 // for AES256
MACKeySize = 16 + 16 // for Poly1305-AES128
ivSize = aes.BlockSize
)
type AESKey [32]byte
type MACKey [32]byte
type IV [ivSize]byte
// mask for key, (cf. http://cr.yp.to/mac/poly1305-20050329.pdf)
var poly1305KeyMask = [16]byte{
0xff,
0xff,
0xff,
0x0f, // 3: top four bits zero
0xfc, // 4: bottom two bits zero
0xff,
0xff,
0x0f, // 7: top four bits zero
0xfc, // 8: bottom two bits zero
0xff,
0xff,
0x0f, // 11: top four bits zero
0xfc, // 12: bottom two bits zero
0xff,
0xff,
0x0f, // 15: top four bits zero
}
// key is a [32]byte, in the form k||r
func poly1305_sign(msg []byte, nonce []byte, key *MACKey) []byte {
// prepare key for low-level poly1305.Sum(): r||n
var k [32]byte
// make sure key is masked
maskKey(key)
// fill in nonce, encrypted with AES and key[:16]
cipher, err := aes.NewCipher(key[:16])
if err != nil {
panic(err)
}
cipher.Encrypt(k[16:], nonce[:])
// copy r
copy(k[:16], key[16:])
// save mac in out
var out [16]byte
poly1305.Sum(&out, msg, &k)
return out[:]
}
// mask poly1305 key
func maskKey(k *MACKey) {
if k == nil {
return
}
for i := 0; i < poly1305.TagSize; i++ {
k[i+16] = k[i+16] & poly1305KeyMask[i]
}
}
// key: k||r
func poly1305_verify(msg []byte, nonce []byte, key *MACKey, mac []byte) bool {
// prepare key for low-level poly1305.Sum(): r||n
var k [32]byte
// make sure key is masked
maskKey(key)
// fill in nonce, encrypted with AES and key[:16]
cipher, err := aes.NewCipher(key[:16])
if err != nil {
panic(err)
}
cipher.Encrypt(k[16:], nonce[:])
// copy r
copy(k[:16], key[16:])
// copy mac to array
var m [16]byte
copy(m[:], mac)
return poly1305.Verify(&m, msg, &k)
}
func generateRandomAESKey() (k *AESKey) {
k = &AESKey{}
n, err := rand.Read(k[:])
if n != AESKeySize || err != nil {
panic("unable to read enough random bytes for encryption key")
}
return
}
// returns [32]byte == k||r
func generateRandomMACKey() (k *MACKey) {
k = &MACKey{}
n, err := rand.Read(k[:])
if n != MACKeySize || err != nil {
panic("unable to read enough random bytes for mac key")
}
// mask r in second half
maskKey(k)
return
}
func generateRandomIV() (iv IV) {
n, err := rand.Read(iv[:])
if n != ivSize || err != nil {
panic("unable to read enough random bytes for iv")
}
return
}
// Encrypt encrypts and signs data. Stored in ciphertext is IV || Ciphertext ||
// MAC. Encrypt returns the ciphertext's length.
func Encrypt(ks *keys, ciphertext, plaintext []byte) (int, error) {
if cap(ciphertext) < len(plaintext)+ivSize+macSize {
return 0, ErrBufferTooSmall
}
iv := generateRandomIV()
copy(ciphertext, iv[:])
c, err := aes.NewCipher(ks.Encrypt[:])
if err != nil {
panic(fmt.Sprintf("unable to create cipher: %v", err))
}
e := cipher.NewCTR(c, ciphertext[:ivSize])
e.XORKeyStream(ciphertext[ivSize:cap(ciphertext)], plaintext)
ciphertext = ciphertext[:ivSize+len(plaintext)]
mac := poly1305_sign(ciphertext[ivSize:], ciphertext[:ivSize], ks.Sign)
ciphertext = append(ciphertext, mac...)
return len(ciphertext), nil
}
// Decrypt verifes and decrypts the ciphertext. Ciphertext must be in the form
// IV || Ciphertext || MAC.
func Decrypt(ks *keys, plaintext, ciphertext []byte) ([]byte, error) {
// check for plausible length
if len(ciphertext) < ivSize+macSize {
panic("trying to decrypt invalid data: ciphertext too small")
}
if cap(plaintext) < len(ciphertext) {
// extend plaintext
plaintext = append(plaintext, make([]byte, len(ciphertext)-cap(plaintext))...)
}
// extract mac
l := len(ciphertext) - macSize
ciphertext, mac := ciphertext[:l], ciphertext[l:]
// verify mac
if !poly1305_verify(ciphertext[ivSize:], ciphertext[:ivSize], ks.Sign, mac) {
return nil, ErrUnauthenticated
}
// extract iv
iv, ciphertext := ciphertext[:ivSize], ciphertext[ivSize:]
// decrypt data
c, err := aes.NewCipher(ks.Encrypt[:])
if err != nil {
panic(fmt.Sprintf("unable to create cipher: %v", err))
}
// decrypt
e := cipher.NewCTR(c, iv)
plaintext = plaintext[:len(ciphertext)]
e.XORKeyStream(plaintext, ciphertext)
return plaintext, nil
}
// runs scrypt(password)
func kdf(k *Key, password string) (*keys, error) {
if len(k.Salt) == 0 {
return nil, fmt.Errorf("scrypt() called with empty salt")
}
keybytes := MACKeySize + AESKeySize
scryptKeys, err := scrypt.Key([]byte(password), k.Salt, k.N, k.R, k.P, keybytes)
if err != nil {
return nil, fmt.Errorf("error deriving keys from password: %v", err)
}
if len(scryptKeys) != keybytes {
return nil, fmt.Errorf("invalid numbers of bytes expanded from scrypt(): %d", len(scryptKeys))
}
ek := &AESKey{}
copy(ek[:], scryptKeys[:AESKeySize])
mk := &MACKey{}
copy(mk[:], scryptKeys[AESKeySize:])
ks := &keys{
Encrypt: ek,
Sign: mk,
}
return ks, nil
}
type encryptWriter struct {
iv IV
wroteIV bool
data *bytes.Buffer
key *keys
s cipher.Stream
w io.Writer
origWr io.Writer
err error // remember error writing iv
}
func (e *encryptWriter) Close() error {
// write mac
mac := poly1305_sign(e.data.Bytes()[ivSize:], e.data.Bytes()[:ivSize], e.key.Sign)
_, err := e.origWr.Write(mac)
if err != nil {
return err
}
// return buffer
FreeChunkBuf("EncryptWriter", e.data.Bytes())
return nil
}
const encryptWriterChunkSize = 512 * 1024 // 512 KiB
var encryptWriterBufPool = sync.Pool{
New: func() interface{} {
return make([]byte, encryptWriterChunkSize)
},
}
func (e *encryptWriter) Write(p []byte) (int, error) {
// write iv first
if !e.wroteIV {
_, e.err = e.origWr.Write(e.iv[:])
e.wroteIV = true
}
if e.err != nil {
return 0, e.err
}
buf := encryptWriterBufPool.Get().([]byte)
defer encryptWriterBufPool.Put(buf)
written := 0
for len(p) > 0 {
max := len(p)
if max > encryptWriterChunkSize {
max = encryptWriterChunkSize
}
e.s.XORKeyStream(buf, p[:max])
n, err := e.w.Write(buf[:max])
if n != max {
if err == nil { // should never happen
err = io.ErrShortWrite
}
}
written += n
p = p[n:]
if err != nil {
e.err = err
return written, err
}
}
return written, nil
}
// EncryptTo buffers data written to the returned io.WriteCloser. When Close()
// is called, the data is encrypted an written to the underlying writer.
func EncryptTo(ks *keys, wr io.Writer) io.WriteCloser {
ew := &encryptWriter{
iv: generateRandomIV(),
data: bytes.NewBuffer(GetChunkBuf("EncryptWriter")[:0]),
key: ks,
origWr: wr,
}
// buffer iv for mac
_, err := ew.data.Write(ew.iv[:])
if err != nil {
panic(err)
}
c, err := aes.NewCipher(ks.Encrypt[:])
if err != nil {
panic(fmt.Sprintf("unable to create cipher: %v", err))
}
ew.s = cipher.NewCTR(c, ew.iv[:])
ew.w = io.MultiWriter(ew.data, wr)
return ew
}
type decryptReader struct {
buf []byte
pos int
}
func (d *decryptReader) Read(dst []byte) (int, error) {
if d.buf == nil {
return 0, io.EOF
}
if len(dst) == 0 {
return 0, nil
}
remaining := len(d.buf) - d.pos
if len(dst) >= remaining {
n := copy(dst, d.buf[d.pos:])
d.Close()
return n, io.EOF
}
n := copy(dst, d.buf[d.pos:d.pos+len(dst)])
d.pos += n
return n, nil
}
func (d *decryptReader) ReadByte() (c byte, err error) {
if d.buf == nil {
return 0, io.EOF
}
remaining := len(d.buf) - d.pos
if remaining == 1 {
c = d.buf[d.pos]
d.Close()
return c, io.EOF
}
c = d.buf[d.pos]
d.pos++
return
}
func (d *decryptReader) Close() error {
if d.buf == nil {
return nil
}
FreeChunkBuf("decryptReader", d.buf)
d.buf = nil
return nil
}
// DecryptFrom verifies and decrypts the ciphertext read from rd with ks and
// makes it available on the returned Reader. Ciphertext must be in the form IV
// || Ciphertext || MAC. In order to correctly verify the ciphertext, rd is
// drained, locally buffered and made available on the returned Reader
// afterwards. If a MAC verification failure is observed, it is returned
// immediately.
func DecryptFrom(ks *keys, rd io.Reader) (io.ReadCloser, error) {
ciphertext := GetChunkBuf("decryptReader")
ciphertext = ciphertext[0:cap(ciphertext)]
n, err := io.ReadFull(rd, ciphertext)
if err != io.ErrUnexpectedEOF {
// read remaining data
buf, e := ioutil.ReadAll(rd)
ciphertext = append(ciphertext, buf...)
n += len(buf)
err = e
} else {
err = nil
}
if err != nil {
return nil, err
}
ciphertext = ciphertext[:n]
// decrypt
ciphertext, err = Decrypt(ks, ciphertext, ciphertext)
if err != nil {
return nil, err
}
return &decryptReader{buf: ciphertext}, nil
}