mirror of https://github.com/minio/minio.git
177 lines
5.9 KiB
Go
177 lines
5.9 KiB
Go
// MinIO Cloud Storage, (C) 2015, 2016, 2017, 2018 MinIO, Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package crypto
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import (
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"bytes"
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"context"
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"crypto/hmac"
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"crypto/rand"
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"encoding/binary"
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"errors"
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"fmt"
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"io"
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"path"
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"github.com/minio/minio/cmd/logger"
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sha256 "github.com/minio/sha256-simd"
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"github.com/minio/sio"
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)
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// ObjectKey is a 256 bit secret key used to encrypt the object.
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// It must never be stored in plaintext.
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type ObjectKey [32]byte
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// GenerateKey generates a unique ObjectKey from a 256 bit external key
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// and a source of randomness. If random is nil the default PRNG of the
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// system (crypto/rand) is used.
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func GenerateKey(extKey [32]byte, random io.Reader) (key ObjectKey) {
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if random == nil {
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random = rand.Reader
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}
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var nonce [32]byte
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if _, err := io.ReadFull(random, nonce[:]); err != nil {
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logger.CriticalIf(context.Background(), errOutOfEntropy)
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}
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sha := sha256.New()
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sha.Write(extKey[:])
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sha.Write(nonce[:])
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sha.Sum(key[:0])
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return key
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}
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// GenerateIV generates a new random 256 bit IV from the provided source
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// of randomness. If random is nil the default PRNG of the system
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// (crypto/rand) is used.
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func GenerateIV(random io.Reader) (iv [32]byte) {
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if random == nil {
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random = rand.Reader
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}
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if _, err := io.ReadFull(random, iv[:]); err != nil {
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logger.CriticalIf(context.Background(), errOutOfEntropy)
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}
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return iv
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}
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// SealedKey represents a sealed object key. It can be stored
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// at an untrusted location.
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type SealedKey struct {
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Key [64]byte // The encrypted and authenticted object-key.
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IV [32]byte // The random IV used to encrypt the object-key.
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Algorithm string // The sealing algorithm used to encrypt the object key.
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}
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// Seal encrypts the ObjectKey using the 256 bit external key and IV. The sealed
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// key is also cryptographically bound to the object's path (bucket/object) and the
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// domain (SSE-C or SSE-S3).
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func (key ObjectKey) Seal(extKey, iv [32]byte, domain, bucket, object string) SealedKey {
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var (
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sealingKey [32]byte
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encryptedKey bytes.Buffer
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)
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mac := hmac.New(sha256.New, extKey[:])
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mac.Write(iv[:])
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mac.Write([]byte(domain))
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mac.Write([]byte(SealAlgorithm))
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mac.Write([]byte(path.Join(bucket, object))) // use path.Join for canonical 'bucket/object'
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mac.Sum(sealingKey[:0])
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if n, err := sio.Encrypt(&encryptedKey, bytes.NewReader(key[:]), sio.Config{Key: sealingKey[:]}); n != 64 || err != nil {
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logger.CriticalIf(context.Background(), errors.New("Unable to generate sealed key"))
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}
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sealedKey := SealedKey{
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IV: iv,
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Algorithm: SealAlgorithm,
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}
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copy(sealedKey.Key[:], encryptedKey.Bytes())
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return sealedKey
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}
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// Unseal decrypts a sealed key using the 256 bit external key. Since the sealed key
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// may be cryptographically bound to the object's path the same bucket/object as during sealing
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// must be provided. On success the ObjectKey contains the decrypted sealed key.
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func (key *ObjectKey) Unseal(extKey [32]byte, sealedKey SealedKey, domain, bucket, object string) error {
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var (
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unsealConfig sio.Config
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decryptedKey bytes.Buffer
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)
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switch sealedKey.Algorithm {
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default:
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return Error(fmt.Sprintf("The sealing algorithm '%s' is not supported", sealedKey.Algorithm))
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case SealAlgorithm:
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mac := hmac.New(sha256.New, extKey[:])
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mac.Write(sealedKey.IV[:])
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mac.Write([]byte(domain))
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mac.Write([]byte(SealAlgorithm))
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mac.Write([]byte(path.Join(bucket, object))) // use path.Join for canonical 'bucket/object'
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unsealConfig = sio.Config{MinVersion: sio.Version20, Key: mac.Sum(nil)}
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case InsecureSealAlgorithm:
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sha := sha256.New()
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sha.Write(extKey[:])
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sha.Write(sealedKey.IV[:])
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unsealConfig = sio.Config{MinVersion: sio.Version10, Key: sha.Sum(nil)}
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}
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if n, err := sio.Decrypt(&decryptedKey, bytes.NewReader(sealedKey.Key[:]), unsealConfig); n != 32 || err != nil {
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return ErrSecretKeyMismatch
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}
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copy(key[:], decryptedKey.Bytes())
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return nil
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}
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// DerivePartKey derives an unique 256 bit key from an ObjectKey and the part index.
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func (key ObjectKey) DerivePartKey(id uint32) (partKey [32]byte) {
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var bin [4]byte
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binary.LittleEndian.PutUint32(bin[:], id)
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mac := hmac.New(sha256.New, key[:])
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mac.Write(bin[:])
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mac.Sum(partKey[:0])
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return partKey
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}
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// SealETag seals the etag using the object key.
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// It does not encrypt empty ETags because such ETags indicate
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// that the S3 client hasn't sent an ETag = MD5(object) and
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// the backend can pick an ETag value.
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func (key ObjectKey) SealETag(etag []byte) []byte {
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if len(etag) == 0 { // don't encrypt empty ETag - only if client sent ETag = MD5(object)
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return etag
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}
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var buffer bytes.Buffer
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mac := hmac.New(sha256.New, key[:])
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mac.Write([]byte("SSE-etag"))
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if _, err := sio.Encrypt(&buffer, bytes.NewReader(etag), sio.Config{Key: mac.Sum(nil)}); err != nil {
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logger.CriticalIf(context.Background(), errors.New("Unable to encrypt ETag using object key"))
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}
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return buffer.Bytes()
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}
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// UnsealETag unseals the etag using the provided object key.
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// It does not try to decrypt the ETag if len(etag) == 16
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// because such ETags indicate that the S3 client hasn't sent
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// an ETag = MD5(object) and the backend has picked an ETag value.
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func (key ObjectKey) UnsealETag(etag []byte) ([]byte, error) {
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if !IsETagSealed(etag) {
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return etag, nil
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}
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var buffer bytes.Buffer
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mac := hmac.New(sha256.New, key[:])
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mac.Write([]byte("SSE-etag"))
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if _, err := sio.Decrypt(&buffer, bytes.NewReader(etag), sio.Config{Key: mac.Sum(nil)}); err != nil {
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return nil, err
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}
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return buffer.Bytes(), nil
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}
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