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-rw-r--r--internal/cryptocore/cryptocore.go46
1 files changed, 33 insertions, 13 deletions
diff --git a/internal/cryptocore/cryptocore.go b/internal/cryptocore/cryptocore.go
index e427350..09bab53 100644
--- a/internal/cryptocore/cryptocore.go
+++ b/internal/cryptocore/cryptocore.go
@@ -65,12 +65,18 @@ func New(key []byte, aeadType AEADTypeEnum, IVBitLen int, useHKDF bool, forceDec
// Initialize EME for filename encryption.
var emeCipher *eme.EMECipher
+ var err error
{
- emeKey := key
+ var emeBlockCipher cipher.Block
if useHKDF {
- emeKey = hkdfDerive(key, hkdfInfoEMENames, KeyLen)
+ emeKey := hkdfDerive(key, hkdfInfoEMENames, KeyLen)
+ emeBlockCipher, err = aes.NewCipher(emeKey)
+ for i := range emeKey {
+ emeKey[i] = 0
+ }
+ } else {
+ emeBlockCipher, err = aes.NewCipher(key)
}
- emeBlockCipher, err := aes.NewCipher(emeKey)
if err != nil {
log.Panic(err)
}
@@ -80,9 +86,11 @@ func New(key []byte, aeadType AEADTypeEnum, IVBitLen int, useHKDF bool, forceDec
// Initialize an AEAD cipher for file content encryption.
var aeadCipher cipher.AEAD
if aeadType == BackendOpenSSL || aeadType == BackendGoGCM {
- gcmKey := key
+ var gcmKey []byte
if useHKDF {
gcmKey = hkdfDerive(key, hkdfInfoGCMContent, KeyLen)
+ } else {
+ gcmKey = append([]byte{}, key...)
}
switch aeadType {
case BackendOpenSSL:
@@ -100,22 +108,29 @@ func New(key []byte, aeadType AEADTypeEnum, IVBitLen int, useHKDF bool, forceDec
log.Panic(err)
}
}
+ for i := range gcmKey {
+ gcmKey[i] = 0
+ }
} else if aeadType == BackendAESSIV {
if IVLen != 16 {
// SIV supports any nonce size, but we only use 16.
log.Panic("AES-SIV must use 16-byte nonces")
}
+ // AES-SIV uses 1/2 of the key for authentication, 1/2 for
+ // encryption, so we need a 64-bytes key for AES-256. Derive it from
+ // the 32-byte master key using HKDF, or, for older filesystems, with
+ // SHA256.
var key64 []byte
if useHKDF {
key64 = hkdfDerive(key, hkdfInfoSIVContent, siv_aead.KeyLen)
} else {
- // AES-SIV uses 1/2 of the key for authentication, 1/2 for
- // encryption, so we need a 64-bytes key for AES-256. Derive it from
- // the master key by hashing it with SHA-512.
s := sha512.Sum512(key)
key64 = s[:]
}
aeadCipher = siv_aead.New(key64)
+ for i := range key64 {
+ key64[i] = 0
+ }
} else {
log.Panic("unknown backend cipher")
}
@@ -129,20 +144,25 @@ func New(key []byte, aeadType AEADTypeEnum, IVBitLen int, useHKDF bool, forceDec
}
}
+type wiper interface {
+ Wipe()
+}
+
// Wipe tries to wipe secret keys from memory by overwriting them with zeros
// and/or setting references to nil.
//
// This is not bulletproof due to possible GC copies, but
// still raises to bar for extracting the key.
func (c *CryptoCore) Wipe() {
- if c.AEADBackend == BackendOpenSSL {
- tlog.Debug.Print("CryptoCore.Wipe: Wiping stupidgcm key")
+ be := c.AEADBackend
+ if be == BackendOpenSSL || be == BackendAESSIV {
+ tlog.Debug.Printf("CryptoCore.Wipe: Wiping AEADBackend %d key", be)
// We don't use "x, ok :=" because we *want* to crash loudly if the
- // type assertion fails (it should never fail).
- sgcm := c.AEADCipher.(*stupidgcm.StupidGCM)
- sgcm.Wipe()
+ // type assertion fails.
+ w := c.AEADCipher.(wiper)
+ w.Wipe()
} else {
- tlog.Debug.Print("CryptoCore.Wipe: niling stdlib refs")
+ tlog.Debug.Print("CryptoCore.Wipe: Only nil'ing stdlib refs")
}
// We have no access to the keys (or key-equivalents) stored inside the
// Go stdlib. Best we can is to nil the references and force a GC.