libgocryptfs/internal/nametransform/names.go
2020-08-02 19:33:12 +02:00

143 lines
4.5 KiB
Go

// Package nametransform encrypts and decrypts filenames.
package nametransform
import (
"bytes"
"crypto/aes"
"encoding/base64"
"path/filepath"
"syscall"
"github.com/rfjakob/eme"
"github.com/rfjakob/gocryptfs/internal/tlog"
)
const (
// Like ext4, we allow at most 255 bytes for a file name.
NameMax = 255
)
// NameTransformer is an interface used to transform filenames.
type NameTransformer interface {
DecryptName(cipherName string, iv []byte) (string, error)
EncryptName(plainName string, iv []byte) string
EncryptAndHashName(name string, iv []byte) (string, error)
// HashLongName - take the hash of a long string "name" and return
// "gocryptfs.longname.[sha256]"
//
// This function does not do any I/O.
HashLongName(name string) string
WriteLongNameAt(dirfd int, hashName string, plainName string) error
B64EncodeToString(src []byte) string
B64DecodeString(s string) ([]byte, error)
}
// NameTransform is used to transform filenames.
type NameTransform struct {
emeCipher *eme.EMECipher
longNames bool
// B64 = either base64.URLEncoding or base64.RawURLEncoding, depending
// on the Raw64 feature flag
B64 *base64.Encoding
// Patterns to bypass decryption
BadnamePatterns []string
}
// New returns a new NameTransform instance.
func New(e *eme.EMECipher, longNames bool, raw64 bool) *NameTransform {
b64 := base64.URLEncoding
if raw64 {
b64 = base64.RawURLEncoding
}
return &NameTransform{
emeCipher: e,
longNames: longNames,
B64: b64,
}
}
// DecryptName calls decryptName to try and decrypt a base64-encoded encrypted
// filename "cipherName", and failing that checks if it can be bypassed
func (n *NameTransform) DecryptName(cipherName string, iv []byte) (string, error) {
res, err := n.decryptName(cipherName, iv)
if err != nil {
for _, pattern := range n.BadnamePatterns {
match, err := filepath.Match(pattern, cipherName)
if err == nil && match { // Pattern should have been validated already
// Find longest decryptable substring
// At least 16 bytes due to AES --> at least 22 characters in base64
nameMin := n.B64.EncodedLen(aes.BlockSize)
for charpos := len(cipherName) - 1; charpos >= nameMin; charpos-- {
res, err = n.decryptName(cipherName[:charpos], iv)
if err == nil {
return res + cipherName[charpos:] + " GOCRYPTFS_BAD_NAME", nil
}
}
return cipherName + " GOCRYPTFS_BAD_NAME", nil
}
}
}
return res, err
}
// decryptName decrypts a base64-encoded encrypted filename "cipherName" using the
// initialization vector "iv".
func (n *NameTransform) decryptName(cipherName string, iv []byte) (string, error) {
bin, err := n.B64.DecodeString(cipherName)
if err != nil {
return "", err
}
if len(bin) == 0 {
tlog.Warn.Printf("DecryptName: empty input")
return "", syscall.EBADMSG
}
if len(bin)%aes.BlockSize != 0 {
tlog.Debug.Printf("DecryptName %q: decoded length %d is not a multiple of 16", cipherName, len(bin))
return "", syscall.EBADMSG
}
bin = n.emeCipher.Decrypt(iv, bin)
bin, err = unPad16(bin)
if err != nil {
tlog.Debug.Printf("DecryptName: unPad16 error detail: %v", err)
// unPad16 returns detailed errors including the position of the
// incorrect bytes. Kill the padding oracle by lumping everything into
// a generic error.
return "", syscall.EBADMSG
}
// A name can never contain a null byte or "/". Make sure we never return those
// to the kernel, even when we read a corrupted (or fuzzed) filesystem.
if bytes.Contains(bin, []byte{0}) || bytes.Contains(bin, []byte("/")) {
return "", syscall.EBADMSG
}
// The name should never be "." or "..".
if bytes.Equal(bin, []byte(".")) || bytes.Equal(bin, []byte("..")) {
return "", syscall.EBADMSG
}
plain := string(bin)
return plain, err
}
// EncryptName encrypts "plainName", returns a base64-encoded "cipherName64",
// encrypted using EME (https://github.com/rfjakob/eme).
//
// This function is exported because in some cases, fusefrontend needs access
// to the full (not hashed) name if longname is used.
func (n *NameTransform) EncryptName(plainName string, iv []byte) (cipherName64 string) {
bin := []byte(plainName)
bin = pad16(bin)
bin = n.emeCipher.Encrypt(iv, bin)
cipherName64 = n.B64.EncodeToString(bin)
return cipherName64
}
// B64EncodeToString returns a Base64-encoded string
func (n *NameTransform) B64EncodeToString(src []byte) string {
return n.B64.EncodeToString(src)
}
// B64DecodeString decodes a Base64-encoded string
func (n *NameTransform) B64DecodeString(s string) ([]byte, error) {
return n.B64.DecodeString(s)
}