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mirror of https://github.com/octoleo/restic.git synced 2024-11-04 20:37:49 +00:00
restic/key.go

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Go
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package restic
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import (
"crypto/aes"
"crypto/cipher"
"crypto/hmac"
"crypto/rand"
"crypto/sha256"
"encoding/json"
"errors"
"fmt"
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"hash"
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"io"
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"io/ioutil"
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"os"
"os/user"
"sync"
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"time"
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"github.com/restic/restic/backend"
"github.com/restic/restic/chunker"
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"golang.org/x/crypto/scrypt"
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)
// max size is 8MiB, defined in chunker
const ivSize = aes.BlockSize
const hmacSize = sha256.Size
const maxCiphertextSize = ivSize + chunker.MaxSize + hmacSize
const CiphertextExtension = ivSize + hmacSize
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var (
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// ErrUnauthenticated is returned when ciphertext verification has failed.
ErrUnauthenticated = errors.New("ciphertext verification failed")
// ErrNoKeyFound is returned when no key for the repository could be decrypted.
ErrNoKeyFound = errors.New("no key could be found")
// ErrBufferTooSmall is returned when the destination slice is too small
// for the ciphertext.
ErrBufferTooSmall = errors.New("destination buffer too small")
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)
// TODO: figure out scrypt values on the fly depending on the current
// hardware.
const (
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scryptN = 65536
scryptR = 8
scryptP = 1
scryptSaltsize = 64
aesKeysize = 32 // for AES256
hmacKeysize = 32 // for HMAC with SHA256
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)
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// Key represents an encrypted master key for a repository.
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type Key struct {
Created time.Time `json:"created"`
Username string `json:"username"`
Hostname string `json:"hostname"`
Comment string `json:"comment,omitempty"`
KDF string `json:"kdf"`
N int `json:"N"`
R int `json:"r"`
P int `json:"p"`
Salt []byte `json:"salt"`
Data []byte `json:"data"`
user *keys
master *keys
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id backend.ID
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}
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// keys is a JSON structure that holds signing and encryption keys.
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type keys struct {
Sign []byte
Encrypt []byte
}
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// CreateKey initializes a master key in the given backend and encrypts it with
// the password.
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func CreateKey(s Server, password string) (*Key, error) {
return AddKey(s, password, nil)
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}
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// OpenKey tries do decrypt the key specified by id with the given password.
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func OpenKey(s Server, id backend.ID, password string) (*Key, error) {
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// extract data from repo
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data, err := s.Get(backend.Key, id)
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if err != nil {
return nil, err
}
// restore json
k := &Key{}
err = json.Unmarshal(data, k)
if err != nil {
return nil, err
}
// check KDF
if k.KDF != "scrypt" {
return nil, errors.New("only supported KDF is scrypt()")
}
// derive user key
k.user, err = k.scrypt(password)
if err != nil {
return nil, err
}
// decrypt master keys
buf, err := k.DecryptUser(k.Data)
if err != nil {
return nil, err
}
// restore json
k.master = &keys{}
err = json.Unmarshal(buf, k.master)
if err != nil {
return nil, err
}
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k.id = id
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return k, nil
}
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// SearchKey tries to decrypt all keys in the backend with the given password.
// If none could be found, ErrNoKeyFound is returned.
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func SearchKey(s Server, password string) (*Key, error) {
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// list all keys
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ids, err := s.List(backend.Key)
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if err != nil {
panic(err)
}
// try all keys in repo
var key *Key
for _, id := range ids {
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key, err = OpenKey(s, id, password)
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if err != nil {
continue
}
return key, nil
}
return nil, ErrNoKeyFound
}
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// AddKey adds a new key to an already existing repository.
func AddKey(s Server, password string, template *Key) (*Key, error) {
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// fill meta data about key
newkey := &Key{
Created: time.Now(),
KDF: "scrypt",
N: scryptN,
R: scryptR,
P: scryptP,
}
hn, err := os.Hostname()
if err == nil {
newkey.Hostname = hn
}
usr, err := user.Current()
if err == nil {
newkey.Username = usr.Username
}
// generate random salt
newkey.Salt = make([]byte, scryptSaltsize)
n, err := rand.Read(newkey.Salt)
if n != scryptSaltsize || err != nil {
panic("unable to read enough random bytes for salt")
}
// call scrypt() to derive user key
newkey.user, err = newkey.scrypt(password)
if err != nil {
return nil, err
}
if template == nil {
// generate new random master keys
newkey.master, err = newkey.newKeys()
if err != nil {
return nil, err
}
} else {
// copy master keys from old key
newkey.master = template.master
}
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// encrypt master keys (as json) with user key
buf, err := json.Marshal(newkey.master)
if err != nil {
return nil, err
}
newkey.Data = GetChunkBuf("key")
n, err = newkey.EncryptUser(newkey.Data, buf)
newkey.Data = newkey.Data[:n]
// dump as json
buf, err = json.Marshal(newkey)
if err != nil {
return nil, err
}
// store in repository and return
blob, err := s.Create(backend.Key)
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if err != nil {
return nil, err
}
_, err = blob.Write(buf)
if err != nil {
return nil, err
}
err = blob.Close()
if err != nil {
return nil, err
}
id, err := blob.ID()
if err != nil {
return nil, err
}
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newkey.id = id
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FreeChunkBuf("key", newkey.Data)
return newkey, nil
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}
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func (k *Key) scrypt(password string) (*keys, error) {
if len(k.Salt) == 0 {
return nil, fmt.Errorf("scrypt() called with empty salt")
}
keybytes := hmacKeysize + aesKeysize
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scryptKeys, err := scrypt.Key([]byte(password), k.Salt, k.N, k.R, k.P, keybytes)
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if err != nil {
return nil, fmt.Errorf("error deriving keys from password: %v", err)
}
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if len(scryptKeys) != keybytes {
return nil, fmt.Errorf("invalid numbers of bytes expanded from scrypt(): %d", len(scryptKeys))
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}
ks := &keys{
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Encrypt: scryptKeys[:aesKeysize],
Sign: scryptKeys[aesKeysize:],
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}
return ks, nil
}
func (k *Key) newKeys() (*keys, error) {
ks := &keys{
Encrypt: make([]byte, aesKeysize),
Sign: make([]byte, hmacKeysize),
}
n, err := rand.Read(ks.Encrypt)
if n != aesKeysize || err != nil {
panic("unable to read enough random bytes for encryption key")
}
n, err = rand.Read(ks.Sign)
if n != hmacKeysize || err != nil {
panic("unable to read enough random bytes for signing key")
}
return ks, nil
}
func (k *Key) newIV(buf []byte) error {
_, err := io.ReadFull(rand.Reader, buf[:ivSize])
buf = buf[:ivSize]
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if err != nil {
return err
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}
return nil
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}
// Encrypt encrypts and signs data. Stored in ciphertext is IV || Ciphertext ||
// HMAC. Encrypt returns the ciphertext's length. For the hash function, SHA256
// is used, so the overhead is 16+32=48 byte.
func (k *Key) encrypt(ks *keys, ciphertext, plaintext []byte) (int, error) {
if cap(ciphertext) < len(plaintext)+ivSize+hmacSize {
return 0, ErrBufferTooSmall
}
_, err := io.ReadFull(rand.Reader, ciphertext[:ivSize])
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if err != nil {
panic(fmt.Sprintf("unable to generate new random iv: %v", err))
}
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)]
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hm := hmac.New(sha256.New, ks.Sign)
n, err := hm.Write(ciphertext)
if err != nil || n != len(ciphertext) {
panic(fmt.Sprintf("unable to calculate hmac of ciphertext: %v", err))
}
ciphertext = hm.Sum(ciphertext)
return len(ciphertext), nil
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}
// EncryptUser encrypts and signs data with the user key. Stored in ciphertext
// is IV || Ciphertext || HMAC. Returns the ciphertext length. For the hash
// function, SHA256 is used, so the overhead is 16+32=48 byte.
func (k *Key) EncryptUser(ciphertext, plaintext []byte) (int, error) {
return k.encrypt(k.user, ciphertext, plaintext)
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}
// Encrypt encrypts and signs data with the master key. Stored in ciphertext is
// IV || Ciphertext || HMAC. Returns the ciphertext length. For the hash
// function, SHA256 is used, so the overhead is 16+32=48 byte.
func (k *Key) Encrypt(ciphertext, plaintext []byte) (int, error) {
return k.encrypt(k.master, ciphertext, plaintext)
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}
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type encryptWriter struct {
iv []byte
wroteIV bool
h hash.Hash
s cipher.Stream
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w io.Writer
origWr io.Writer
err error // remember error writing iv
}
func (e *encryptWriter) Close() error {
// write hmac
_, err := e.origWr.Write(e.h.Sum(nil))
if err != nil {
return err
}
return nil
}
const encryptWriterChunkSize = 512 * 1024 // 512 KiB
var encryptWriterBufPool = sync.Pool{
New: func() interface{} {
return make([]byte, encryptWriterChunkSize)
},
}
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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
}
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}
return written, nil
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}
func (k *Key) encryptTo(ks *keys, wr io.Writer) io.WriteCloser {
ew := &encryptWriter{
iv: make([]byte, ivSize),
h: hmac.New(sha256.New, ks.Sign),
origWr: wr,
}
_, err := io.ReadFull(rand.Reader, ew.iv)
if err != nil {
panic(fmt.Sprintf("unable to generate new random iv: %v", err))
}
// write iv to hmac
_, err = ew.h.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.h, wr)
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return ew
}
// EncryptTo encrypts and signs data with the master key. The returned
// io.Writer writes IV || Ciphertext || HMAC. For the hash function, SHA256 is
// used.
func (k *Key) EncryptTo(wr io.Writer) io.WriteCloser {
return k.encryptTo(k.master, wr)
}
// EncryptUserTo encrypts and signs data with the user key. The returned
// io.Writer writes IV || Ciphertext || HMAC. For the hash function, SHA256 is
// used.
func (k *Key) EncryptUserTo(wr io.Writer) io.WriteCloser {
return k.encryptTo(k.user, wr)
}
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// Decrypt verifes and decrypts the ciphertext. Ciphertext must be in the form
// IV || Ciphertext || HMAC.
func (k *Key) decrypt(ks *keys, ciphertext []byte) ([]byte, error) {
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// check for plausible length
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if len(ciphertext) < ivSize+hmacSize {
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panic("trying to decryipt invalid data: ciphertext too small")
}
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hm := hmac.New(sha256.New, ks.Sign)
// extract hmac
l := len(ciphertext) - hm.Size()
ciphertext, mac := ciphertext[:l], ciphertext[l:]
// calculate new hmac
n, err := hm.Write(ciphertext)
if err != nil || n != len(ciphertext) {
panic(fmt.Sprintf("unable to calculate hmac of ciphertext, err %v", err))
}
// verify hmac
mac2 := hm.Sum(nil)
if !hmac.Equal(mac, mac2) {
return nil, ErrUnauthenticated
}
// extract iv
iv, ciphertext := ciphertext[:aes.BlockSize], ciphertext[aes.BlockSize:]
// decrypt data
c, err := aes.NewCipher(ks.Encrypt)
if err != nil {
panic(fmt.Sprintf("unable to create cipher: %v", err))
}
// decrypt
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e := cipher.NewCTR(c, iv)
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plaintext := make([]byte, len(ciphertext))
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e.XORKeyStream(plaintext, ciphertext)
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return plaintext, nil
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}
// Decrypt verifes and decrypts the ciphertext with the master key. Ciphertext
// must be in the form IV || Ciphertext || HMAC.
func (k *Key) Decrypt(ciphertext []byte) ([]byte, error) {
return k.decrypt(k.master, ciphertext)
}
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// DecryptUser verifes and decrypts the ciphertext with the user key. Ciphertext
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// must be in the form IV || Ciphertext || HMAC.
func (k *Key) DecryptUser(ciphertext []byte) ([]byte, error) {
return k.decrypt(k.user, ciphertext)
}
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:])
FreeChunkBuf("decryptReader", d.buf)
d.buf = nil
return n, io.EOF
}
n := copy(dst, d.buf[d.pos:d.pos+len(dst)])
d.pos += n
return n, nil
}
Reduce memory usage of decryptReader benchmark old ns/op new ns/op delta BenchmarkChunkEncrypt 260007360 261144414 +0.44% BenchmarkChunkEncryptParallel 262839697 261201438 -0.62% BenchmarkArchiveDirectory 0.00 0.00 +0.00% BenchmarkEncryptWriter 86994839 88297245 +1.50% BenchmarkEncrypt 87414849 87406446 -0.01% BenchmarkDecryptReader 90354651 89948630 -0.45% BenchmarkEncryptDecryptReader 184533845 178374144 -3.34% BenchmarkDecrypt 88153894 88289705 +0.15% BenchmarkSaveJSON 213906 213917 +0.01% BenchmarkSaveFrom 75263853 74881361 -0.51% benchmark old MB/s new MB/s speedup BenchmarkChunkEncrypt 40.33 40.15 1.00x BenchmarkChunkEncryptParallel 39.89 40.14 1.01x BenchmarkEncryptWriter 96.43 95.00 0.99x BenchmarkEncrypt 95.96 95.97 1.00x BenchmarkDecryptReader 92.84 93.26 1.00x BenchmarkEncryptDecryptReader 45.46 47.03 1.03x BenchmarkDecrypt 95.16 95.01 1.00x BenchmarkSaveFrom 55.73 56.01 1.01x benchmark old allocs new allocs delta BenchmarkChunkEncrypt 113 113 +0.00% BenchmarkChunkEncryptParallel 104 104 +0.00% BenchmarkArchiveDirectory 0 0 +0.00% BenchmarkEncryptWriter 20 20 +0.00% BenchmarkEncrypt 14 14 +0.00% BenchmarkDecryptReader 18 18 +0.00% BenchmarkEncryptDecryptReader 55 40 -27.27% BenchmarkDecrypt 17 17 +0.00% BenchmarkSaveJSON 125 125 +0.00% BenchmarkSaveFrom 119 116 -2.52% benchmark old bytes new bytes delta BenchmarkChunkEncrypt 8515750 8515750 +0.00% BenchmarkChunkEncryptParallel 8515766 8515766 +0.00% BenchmarkArchiveDirectory 0 0 +0.00% BenchmarkEncryptWriter 28927 28927 +0.00% BenchmarkEncrypt 422313 422313 +0.00% BenchmarkDecryptReader 527827 527827 +0.00% BenchmarkEncryptDecryptReader 35814894 4100824 -88.55% BenchmarkDecrypt 8391127 8391127 +0.00% BenchmarkSaveJSON 9208 9208 +0.00% BenchmarkSaveFrom 40541 39694 -2.09%
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func (d *decryptReader) Close() error {
if d.buf == nil {
return nil
}
FreeChunkBuf("decryptReader", d.buf)
d.buf = nil
return nil
}
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// 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 || HMAC. In order to correctly verify the ciphertext, rd is
// drained, locally buffered and made available on the returned Reader
// afterwards. If an HMAC verification failure is observed, it is returned
// immediately.
Reduce memory usage of decryptReader benchmark old ns/op new ns/op delta BenchmarkChunkEncrypt 260007360 261144414 +0.44% BenchmarkChunkEncryptParallel 262839697 261201438 -0.62% BenchmarkArchiveDirectory 0.00 0.00 +0.00% BenchmarkEncryptWriter 86994839 88297245 +1.50% BenchmarkEncrypt 87414849 87406446 -0.01% BenchmarkDecryptReader 90354651 89948630 -0.45% BenchmarkEncryptDecryptReader 184533845 178374144 -3.34% BenchmarkDecrypt 88153894 88289705 +0.15% BenchmarkSaveJSON 213906 213917 +0.01% BenchmarkSaveFrom 75263853 74881361 -0.51% benchmark old MB/s new MB/s speedup BenchmarkChunkEncrypt 40.33 40.15 1.00x BenchmarkChunkEncryptParallel 39.89 40.14 1.01x BenchmarkEncryptWriter 96.43 95.00 0.99x BenchmarkEncrypt 95.96 95.97 1.00x BenchmarkDecryptReader 92.84 93.26 1.00x BenchmarkEncryptDecryptReader 45.46 47.03 1.03x BenchmarkDecrypt 95.16 95.01 1.00x BenchmarkSaveFrom 55.73 56.01 1.01x benchmark old allocs new allocs delta BenchmarkChunkEncrypt 113 113 +0.00% BenchmarkChunkEncryptParallel 104 104 +0.00% BenchmarkArchiveDirectory 0 0 +0.00% BenchmarkEncryptWriter 20 20 +0.00% BenchmarkEncrypt 14 14 +0.00% BenchmarkDecryptReader 18 18 +0.00% BenchmarkEncryptDecryptReader 55 40 -27.27% BenchmarkDecrypt 17 17 +0.00% BenchmarkSaveJSON 125 125 +0.00% BenchmarkSaveFrom 119 116 -2.52% benchmark old bytes new bytes delta BenchmarkChunkEncrypt 8515750 8515750 +0.00% BenchmarkChunkEncryptParallel 8515766 8515766 +0.00% BenchmarkArchiveDirectory 0 0 +0.00% BenchmarkEncryptWriter 28927 28927 +0.00% BenchmarkEncrypt 422313 422313 +0.00% BenchmarkDecryptReader 527827 527827 +0.00% BenchmarkEncryptDecryptReader 35814894 4100824 -88.55% BenchmarkDecrypt 8391127 8391127 +0.00% BenchmarkSaveJSON 9208 9208 +0.00% BenchmarkSaveFrom 40541 39694 -2.09%
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func (k *Key) 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
}
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if err != nil {
return nil, err
}
ciphertext = ciphertext[:n]
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// check for plausible length
if len(ciphertext) < ivSize+hmacSize {
panic("trying to decrypt invalid data: ciphertext too small")
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}
hm := hmac.New(sha256.New, ks.Sign)
// extract hmac
l := len(ciphertext) - hm.Size()
ciphertext, mac := ciphertext[:l], ciphertext[l:]
// calculate new hmac
n, err = hm.Write(ciphertext)
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if err != nil || n != len(ciphertext) {
panic(fmt.Sprintf("unable to calculate hmac of ciphertext, err %v", err))
}
// verify hmac
mac2 := hm.Sum(nil)
if !hmac.Equal(mac, mac2) {
return nil, ErrUnauthenticated
}
// extract iv
iv, ciphertext := ciphertext[:aes.BlockSize], ciphertext[aes.BlockSize:]
// decrypt data
c, err := aes.NewCipher(ks.Encrypt)
if err != nil {
panic(fmt.Sprintf("unable to create cipher: %v", err))
}
stream := cipher.NewCTR(c, iv)
stream.XORKeyStream(ciphertext, ciphertext)
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return &decryptReader{buf: ciphertext}, nil
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}
// DecryptFrom verifies and decrypts the ciphertext read from rd and makes it
// available on the returned Reader. Ciphertext must be in the form IV ||
// Ciphertext || HMAC. In order to correctly verify the ciphertext, rd is
// drained, locally buffered and made available on the returned Reader
// afterwards. If an HMAC verification failure is observed, it is returned
// immediately.
Reduce memory usage of decryptReader benchmark old ns/op new ns/op delta BenchmarkChunkEncrypt 260007360 261144414 +0.44% BenchmarkChunkEncryptParallel 262839697 261201438 -0.62% BenchmarkArchiveDirectory 0.00 0.00 +0.00% BenchmarkEncryptWriter 86994839 88297245 +1.50% BenchmarkEncrypt 87414849 87406446 -0.01% BenchmarkDecryptReader 90354651 89948630 -0.45% BenchmarkEncryptDecryptReader 184533845 178374144 -3.34% BenchmarkDecrypt 88153894 88289705 +0.15% BenchmarkSaveJSON 213906 213917 +0.01% BenchmarkSaveFrom 75263853 74881361 -0.51% benchmark old MB/s new MB/s speedup BenchmarkChunkEncrypt 40.33 40.15 1.00x BenchmarkChunkEncryptParallel 39.89 40.14 1.01x BenchmarkEncryptWriter 96.43 95.00 0.99x BenchmarkEncrypt 95.96 95.97 1.00x BenchmarkDecryptReader 92.84 93.26 1.00x BenchmarkEncryptDecryptReader 45.46 47.03 1.03x BenchmarkDecrypt 95.16 95.01 1.00x BenchmarkSaveFrom 55.73 56.01 1.01x benchmark old allocs new allocs delta BenchmarkChunkEncrypt 113 113 +0.00% BenchmarkChunkEncryptParallel 104 104 +0.00% BenchmarkArchiveDirectory 0 0 +0.00% BenchmarkEncryptWriter 20 20 +0.00% BenchmarkEncrypt 14 14 +0.00% BenchmarkDecryptReader 18 18 +0.00% BenchmarkEncryptDecryptReader 55 40 -27.27% BenchmarkDecrypt 17 17 +0.00% BenchmarkSaveJSON 125 125 +0.00% BenchmarkSaveFrom 119 116 -2.52% benchmark old bytes new bytes delta BenchmarkChunkEncrypt 8515750 8515750 +0.00% BenchmarkChunkEncryptParallel 8515766 8515766 +0.00% BenchmarkArchiveDirectory 0 0 +0.00% BenchmarkEncryptWriter 28927 28927 +0.00% BenchmarkEncrypt 422313 422313 +0.00% BenchmarkDecryptReader 527827 527827 +0.00% BenchmarkEncryptDecryptReader 35814894 4100824 -88.55% BenchmarkDecrypt 8391127 8391127 +0.00% BenchmarkSaveJSON 9208 9208 +0.00% BenchmarkSaveFrom 40541 39694 -2.09%
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func (k *Key) DecryptFrom(rd io.Reader) (io.ReadCloser, error) {
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return k.decryptFrom(k.master, rd)
}
// DecryptFrom verifies and decrypts the ciphertext read from rd with the user
// key and makes it available on the returned Reader. Ciphertext must be in the
// form IV || Ciphertext || HMAC. In order to correctly verify the ciphertext,
// rd is drained, locally buffered and made available on the returned Reader
// afterwards. If an HMAC verification failure is observed, it is returned
// immediately.
Reduce memory usage of decryptReader benchmark old ns/op new ns/op delta BenchmarkChunkEncrypt 260007360 261144414 +0.44% BenchmarkChunkEncryptParallel 262839697 261201438 -0.62% BenchmarkArchiveDirectory 0.00 0.00 +0.00% BenchmarkEncryptWriter 86994839 88297245 +1.50% BenchmarkEncrypt 87414849 87406446 -0.01% BenchmarkDecryptReader 90354651 89948630 -0.45% BenchmarkEncryptDecryptReader 184533845 178374144 -3.34% BenchmarkDecrypt 88153894 88289705 +0.15% BenchmarkSaveJSON 213906 213917 +0.01% BenchmarkSaveFrom 75263853 74881361 -0.51% benchmark old MB/s new MB/s speedup BenchmarkChunkEncrypt 40.33 40.15 1.00x BenchmarkChunkEncryptParallel 39.89 40.14 1.01x BenchmarkEncryptWriter 96.43 95.00 0.99x BenchmarkEncrypt 95.96 95.97 1.00x BenchmarkDecryptReader 92.84 93.26 1.00x BenchmarkEncryptDecryptReader 45.46 47.03 1.03x BenchmarkDecrypt 95.16 95.01 1.00x BenchmarkSaveFrom 55.73 56.01 1.01x benchmark old allocs new allocs delta BenchmarkChunkEncrypt 113 113 +0.00% BenchmarkChunkEncryptParallel 104 104 +0.00% BenchmarkArchiveDirectory 0 0 +0.00% BenchmarkEncryptWriter 20 20 +0.00% BenchmarkEncrypt 14 14 +0.00% BenchmarkDecryptReader 18 18 +0.00% BenchmarkEncryptDecryptReader 55 40 -27.27% BenchmarkDecrypt 17 17 +0.00% BenchmarkSaveJSON 125 125 +0.00% BenchmarkSaveFrom 119 116 -2.52% benchmark old bytes new bytes delta BenchmarkChunkEncrypt 8515750 8515750 +0.00% BenchmarkChunkEncryptParallel 8515766 8515766 +0.00% BenchmarkArchiveDirectory 0 0 +0.00% BenchmarkEncryptWriter 28927 28927 +0.00% BenchmarkEncrypt 422313 422313 +0.00% BenchmarkDecryptReader 527827 527827 +0.00% BenchmarkEncryptDecryptReader 35814894 4100824 -88.55% BenchmarkDecrypt 8391127 8391127 +0.00% BenchmarkSaveJSON 9208 9208 +0.00% BenchmarkSaveFrom 40541 39694 -2.09%
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func (k *Key) DecryptUserFrom(rd io.Reader) (io.ReadCloser, error) {
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return k.decryptFrom(k.user, rd)
}
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func (k *Key) String() string {
if k == nil {
return "<Key nil>"
}
return fmt.Sprintf("<Key of %s@%s, created on %s>", k.Username, k.Hostname, k.Created)
}
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func (k Key) ID() backend.ID {
return k.id
}