mirror of
https://github.com/octoleo/restic.git
synced 2024-12-22 19:08:55 +00:00
469 lines
9.9 KiB
Go
469 lines
9.9 KiB
Go
package restic
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import (
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"bytes"
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"crypto/aes"
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"crypto/cipher"
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"crypto/rand"
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"encoding/json"
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"fmt"
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"io"
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"io/ioutil"
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"sync"
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"golang.org/x/crypto/poly1305"
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"golang.org/x/crypto/scrypt"
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)
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const (
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AESKeySize = 32 // for AES256
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MACKeySizeK = 16 // for AES-128
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MACKeySizeR = 16 // for Poly1305
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MACKeySize = MACKeySizeK + MACKeySizeR // for Poly1305-AES128
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ivSize = aes.BlockSize
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)
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type AESKey [32]byte
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type MACKey struct {
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K [16]byte // for AES128
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R [16]byte // for Poly1305
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}
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type IV [ivSize]byte
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// mask for key, (cf. http://cr.yp.to/mac/poly1305-20050329.pdf)
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var poly1305KeyMask = [16]byte{
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0xff,
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0xff,
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0xff,
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0x0f, // 3: top four bits zero
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0xfc, // 4: bottom two bits zero
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0xff,
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0xff,
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0x0f, // 7: top four bits zero
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0xfc, // 8: bottom two bits zero
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0xff,
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0xff,
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0x0f, // 11: top four bits zero
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0xfc, // 12: bottom two bits zero
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0xff,
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0xff,
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0x0f, // 15: top four bits zero
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}
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// key is a [32]byte, in the form k||r
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func poly1305_sign(msg []byte, nonce []byte, key *MACKey) []byte {
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// prepare key for low-level poly1305.Sum(): r||n
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var k [32]byte
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// make sure key is masked
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maskKey(key)
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// fill in nonce, encrypted with AES and key[:16]
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cipher, err := aes.NewCipher(key.K[:])
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if err != nil {
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panic(err)
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}
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cipher.Encrypt(k[16:], nonce[:])
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// copy r
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copy(k[:16], key.R[:])
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// save mac in out
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var out [16]byte
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poly1305.Sum(&out, msg, &k)
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return out[:]
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}
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// mask poly1305 key
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func maskKey(k *MACKey) {
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if k == nil {
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return
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}
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for i := 0; i < poly1305.TagSize; i++ {
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k.R[i] = k.R[i] & poly1305KeyMask[i]
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}
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}
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// construct mac key from slice (k||r), with masking
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func macKeyFromSlice(mk *MACKey, data []byte) {
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copy(mk.K[:], data[:16])
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copy(mk.R[:], data[16:32])
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maskKey(mk)
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}
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// key: k||r
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func poly1305_verify(msg []byte, nonce []byte, key *MACKey, mac []byte) bool {
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// prepare key for low-level poly1305.Sum(): r||n
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var k [32]byte
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// make sure key is masked
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maskKey(key)
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// fill in nonce, encrypted with AES and key[:16]
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cipher, err := aes.NewCipher(key.K[:])
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if err != nil {
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panic(err)
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}
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cipher.Encrypt(k[16:], nonce[:])
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// copy r
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copy(k[:16], key.R[:])
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// copy mac to array
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var m [16]byte
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copy(m[:], mac)
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return poly1305.Verify(&m, msg, &k)
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}
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// returns new encryption and mac keys. k.MACKey.R is already masked.
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func generateRandomKeys() (k *MasterKeys) {
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k = &MasterKeys{}
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n, err := rand.Read(k.Encrypt[:])
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if n != AESKeySize || err != nil {
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panic("unable to read enough random bytes for encryption key")
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}
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n, err = rand.Read(k.Sign.K[:])
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if n != MACKeySizeK || err != nil {
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panic("unable to read enough random bytes for mac encryption key")
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}
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n, err = rand.Read(k.Sign.R[:])
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if n != MACKeySizeR || err != nil {
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panic("unable to read enough random bytes for mac signing key")
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}
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// mask r
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maskKey(&k.Sign)
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return k
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}
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func generateRandomIV() (iv IV) {
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n, err := rand.Read(iv[:])
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if n != ivSize || err != nil {
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panic("unable to read enough random bytes for iv")
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}
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return
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}
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type jsonMACKey struct {
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K []byte `json:"k"`
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R []byte `json:"r"`
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}
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func (m *MACKey) MarshalJSON() ([]byte, error) {
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return json.Marshal(jsonMACKey{K: m.K[:], R: m.R[:]})
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}
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func (m *MACKey) UnmarshalJSON(data []byte) error {
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j := jsonMACKey{}
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err := json.Unmarshal(data, &j)
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if err != nil {
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return err
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}
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copy(m.K[:], j.K)
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copy(m.R[:], j.R)
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return nil
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}
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func (k *AESKey) MarshalJSON() ([]byte, error) {
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return json.Marshal(k[:])
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}
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func (k *AESKey) UnmarshalJSON(data []byte) error {
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d := make([]byte, AESKeySize)
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err := json.Unmarshal(data, &d)
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if err != nil {
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return err
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}
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copy(k[:], d)
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return nil
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}
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// Encrypt encrypts and signs data. Stored in ciphertext is IV || Ciphertext ||
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// MAC. Encrypt returns the ciphertext's length.
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func Encrypt(ks *MasterKeys, ciphertext, plaintext []byte) (int, error) {
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if cap(ciphertext) < len(plaintext)+ivSize+macSize {
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return 0, ErrBufferTooSmall
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}
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iv := generateRandomIV()
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copy(ciphertext, iv[:])
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c, err := aes.NewCipher(ks.Encrypt[:])
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if err != nil {
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panic(fmt.Sprintf("unable to create cipher: %v", err))
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}
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e := cipher.NewCTR(c, ciphertext[:ivSize])
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e.XORKeyStream(ciphertext[ivSize:cap(ciphertext)], plaintext)
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ciphertext = ciphertext[:ivSize+len(plaintext)]
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mac := poly1305_sign(ciphertext[ivSize:], ciphertext[:ivSize], &ks.Sign)
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ciphertext = append(ciphertext, mac...)
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return len(ciphertext), nil
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}
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// Decrypt verifies and decrypts the ciphertext. Ciphertext must be in the form
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// IV || Ciphertext || MAC.
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func Decrypt(ks *MasterKeys, plaintext, ciphertext []byte) ([]byte, error) {
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// check for plausible length
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if len(ciphertext) < ivSize+macSize {
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panic("trying to decrypt invalid data: ciphertext too small")
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}
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if cap(plaintext) < len(ciphertext) {
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// extend plaintext
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plaintext = append(plaintext, make([]byte, len(ciphertext)-cap(plaintext))...)
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}
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// extract mac
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l := len(ciphertext) - macSize
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ciphertext, mac := ciphertext[:l], ciphertext[l:]
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// verify mac
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if !poly1305_verify(ciphertext[ivSize:], ciphertext[:ivSize], &ks.Sign, mac) {
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return nil, ErrUnauthenticated
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}
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// extract iv
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iv, ciphertext := ciphertext[:ivSize], ciphertext[ivSize:]
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// decrypt data
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c, err := aes.NewCipher(ks.Encrypt[:])
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if err != nil {
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panic(fmt.Sprintf("unable to create cipher: %v", err))
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}
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// decrypt
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e := cipher.NewCTR(c, iv)
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plaintext = plaintext[:len(ciphertext)]
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e.XORKeyStream(plaintext, ciphertext)
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return plaintext, nil
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}
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// runs scrypt(password)
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func kdf(k *Key, password string) (*MasterKeys, error) {
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if len(k.Salt) == 0 {
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return nil, fmt.Errorf("scrypt() called with empty salt")
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}
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derKeys := &MasterKeys{}
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keybytes := MACKeySize + 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 {
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return nil, fmt.Errorf("error deriving keys from password: %v", err)
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}
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if len(scryptKeys) != keybytes {
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return nil, fmt.Errorf("invalid numbers of bytes expanded from scrypt(): %d", len(scryptKeys))
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}
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// first 32 byte of scrypt output is the encryption key
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copy(derKeys.Encrypt[:], scryptKeys[:AESKeySize])
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// next 32 byte of scrypt output is the mac key, in the form k||r
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macKeyFromSlice(&derKeys.Sign, scryptKeys[AESKeySize:])
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return derKeys, nil
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}
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type encryptWriter struct {
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iv IV
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wroteIV bool
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data *bytes.Buffer
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key *MasterKeys
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s cipher.Stream
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w io.Writer
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origWr io.Writer
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err error // remember error writing iv
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}
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func (e *encryptWriter) Close() error {
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// write mac
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mac := poly1305_sign(e.data.Bytes()[ivSize:], e.data.Bytes()[:ivSize], &e.key.Sign)
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_, err := e.origWr.Write(mac)
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if err != nil {
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return err
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}
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// return buffer
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FreeChunkBuf("EncryptWriter", e.data.Bytes())
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return nil
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}
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const encryptWriterChunkSize = 512 * 1024 // 512 KiB
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var encryptWriterBufPool = sync.Pool{
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New: func() interface{} {
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return make([]byte, encryptWriterChunkSize)
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},
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}
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func (e *encryptWriter) Write(p []byte) (int, error) {
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// write iv first
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if !e.wroteIV {
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_, e.err = e.origWr.Write(e.iv[:])
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e.wroteIV = true
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}
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if e.err != nil {
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return 0, e.err
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}
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buf := encryptWriterBufPool.Get().([]byte)
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defer encryptWriterBufPool.Put(buf)
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written := 0
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for len(p) > 0 {
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max := len(p)
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if max > encryptWriterChunkSize {
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max = encryptWriterChunkSize
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}
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e.s.XORKeyStream(buf, p[:max])
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n, err := e.w.Write(buf[:max])
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if n != max {
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if err == nil { // should never happen
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err = io.ErrShortWrite
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}
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}
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written += n
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p = p[n:]
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if err != nil {
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e.err = err
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return written, err
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}
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}
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return written, nil
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}
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// EncryptTo buffers data written to the returned io.WriteCloser. When Close()
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// is called, the data is encrypted an written to the underlying writer.
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func EncryptTo(ks *MasterKeys, wr io.Writer) io.WriteCloser {
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ew := &encryptWriter{
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iv: generateRandomIV(),
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data: bytes.NewBuffer(GetChunkBuf("EncryptWriter")[:0]),
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key: ks,
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origWr: wr,
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}
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// buffer iv for mac
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_, err := ew.data.Write(ew.iv[:])
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if err != nil {
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panic(err)
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}
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c, err := aes.NewCipher(ks.Encrypt[:])
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if err != nil {
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panic(fmt.Sprintf("unable to create cipher: %v", err))
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}
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ew.s = cipher.NewCTR(c, ew.iv[:])
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ew.w = io.MultiWriter(ew.data, wr)
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return ew
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}
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type decryptReader struct {
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buf []byte
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pos int
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}
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func (d *decryptReader) Read(dst []byte) (int, error) {
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if d.buf == nil {
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return 0, io.EOF
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}
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if len(dst) == 0 {
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return 0, nil
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}
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remaining := len(d.buf) - d.pos
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if len(dst) >= remaining {
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n := copy(dst, d.buf[d.pos:])
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d.Close()
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return n, io.EOF
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}
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n := copy(dst, d.buf[d.pos:d.pos+len(dst)])
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d.pos += n
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return n, nil
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}
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func (d *decryptReader) ReadByte() (c byte, err error) {
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if d.buf == nil {
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return 0, io.EOF
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}
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remaining := len(d.buf) - d.pos
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if remaining == 1 {
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c = d.buf[d.pos]
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d.Close()
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return c, io.EOF
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}
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c = d.buf[d.pos]
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d.pos++
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return
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}
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func (d *decryptReader) Close() error {
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if d.buf == nil {
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return nil
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}
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FreeChunkBuf("decryptReader", d.buf)
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d.buf = nil
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return nil
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}
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// DecryptFrom verifies and decrypts the ciphertext read from rd with ks and
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// makes it available on the returned Reader. Ciphertext must be in the form IV
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// || Ciphertext || MAC. In order to correctly verify the ciphertext, rd is
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// drained, locally buffered and made available on the returned Reader
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// afterwards. If a MAC verification failure is observed, it is returned
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// immediately.
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func DecryptFrom(ks *MasterKeys, rd io.Reader) (io.ReadCloser, error) {
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ciphertext := GetChunkBuf("decryptReader")
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ciphertext = ciphertext[0:cap(ciphertext)]
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n, err := io.ReadFull(rd, ciphertext)
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if err != io.ErrUnexpectedEOF {
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// read remaining data
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buf, e := ioutil.ReadAll(rd)
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ciphertext = append(ciphertext, buf...)
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n += len(buf)
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err = e
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} else {
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err = nil
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}
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if err != nil {
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return nil, err
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}
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ciphertext = ciphertext[:n]
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// decrypt
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ciphertext, err = Decrypt(ks, ciphertext, ciphertext)
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if err != nil {
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return nil, err
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}
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return &decryptReader{buf: ciphertext}, nil
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}
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