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// Copyright (c) 2015-2021 MinIO, Inc.
//
// This file is part of MinIO Object Storage stack
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
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package crypto
import (
"context"
"encoding/base64"
"errors"
"net/http"
"path"
"strings"
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xhttp "github.com/minio/minio/internal/http"
"github.com/minio/minio/internal/kms"
"github.com/minio/minio/internal/logger"
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)
type sses3 struct { }
var (
// S3 represents AWS SSE-S3. It provides functionality to handle
// SSE-S3 requests.
S3 = sses3 { }
_ Type = S3
)
// String returns the SSE domain as string. For SSE-S3 the
// domain is "SSE-S3".
func ( sses3 ) String ( ) string { return "SSE-S3" }
func ( sses3 ) IsRequested ( h http . Header ) bool {
_ , ok := h [ xhttp . AmzServerSideEncryption ]
return ok && strings . ToLower ( h . Get ( xhttp . AmzServerSideEncryption ) ) != xhttp . AmzEncryptionKMS // Return only true if the SSE header is specified and does not contain the SSE-KMS value
}
// ParseHTTP parses the SSE-S3 related HTTP headers and checks
// whether they contain valid values.
func ( sses3 ) ParseHTTP ( h http . Header ) error {
if h . Get ( xhttp . AmzServerSideEncryption ) != xhttp . AmzEncryptionAES {
return ErrInvalidEncryptionMethod
}
return nil
}
// IsEncrypted returns true if the object metadata indicates
// that the object was uploaded using SSE-S3.
func ( sses3 ) IsEncrypted ( metadata map [ string ] string ) bool {
if _ , ok := metadata [ MetaSealedKeyS3 ] ; ok {
return true
}
return false
}
// UnsealObjectKey extracts and decrypts the sealed object key
// from the metadata using KMS and returns the decrypted object
// key.
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func ( s3 sses3 ) UnsealObjectKey ( KMS kms . KMS , metadata map [ string ] string , bucket , object string ) ( key ObjectKey , err error ) {
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keyID , kmsKey , sealedKey , err := s3 . ParseMetadata ( metadata )
if err != nil {
return key , err
}
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unsealKey , err := KMS . DecryptKey ( keyID , kmsKey , kms . Context { bucket : path . Join ( bucket , object ) } )
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if err != nil {
return key , err
}
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err = key . Unseal ( unsealKey [ : ] , sealedKey , s3 . String ( ) , bucket , object )
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return key , err
}
// CreateMetadata encodes the sealed object key into the metadata and returns
// the modified metadata. If the keyID and the kmsKey is not empty it encodes
// both into the metadata as well. It allocates a new metadata map if metadata
// is nil.
func ( sses3 ) CreateMetadata ( metadata map [ string ] string , keyID string , kmsKey [ ] byte , sealedKey SealedKey ) map [ string ] string {
if sealedKey . Algorithm != SealAlgorithm {
logger . CriticalIf ( context . Background ( ) , Errorf ( "The seal algorithm '%s' is invalid for SSE-S3" , sealedKey . Algorithm ) )
}
// There are two possibilites:
// - We use a KMS -> There must be non-empty key ID and a KMS data key.
// - We use a K/V -> There must be no key ID and no KMS data key.
// Otherwise, the caller has passed an invalid argument combination.
if keyID == "" && len ( kmsKey ) != 0 {
logger . CriticalIf ( context . Background ( ) , errors . New ( "The key ID must not be empty if a KMS data key is present" ) )
}
if keyID != "" && len ( kmsKey ) == 0 {
logger . CriticalIf ( context . Background ( ) , errors . New ( "The KMS data key must not be empty if a key ID is present" ) )
}
if metadata == nil {
metadata = make ( map [ string ] string , 5 )
}
metadata [ MetaAlgorithm ] = sealedKey . Algorithm
metadata [ MetaIV ] = base64 . StdEncoding . EncodeToString ( sealedKey . IV [ : ] )
metadata [ MetaSealedKeyS3 ] = base64 . StdEncoding . EncodeToString ( sealedKey . Key [ : ] )
if len ( kmsKey ) > 0 && keyID != "" { // We use a KMS -> Store key ID and sealed KMS data key.
metadata [ MetaKeyID ] = keyID
metadata [ MetaDataEncryptionKey ] = base64 . StdEncoding . EncodeToString ( kmsKey )
}
return metadata
}
// ParseMetadata extracts all SSE-S3 related values from the object metadata
// and checks whether they are well-formed. It returns the sealed object key
// on success. If the metadata contains both, a KMS master key ID and a sealed
// KMS data key it returns both. If the metadata does not contain neither a
// KMS master key ID nor a sealed KMS data key it returns an empty keyID and
// KMS data key. Otherwise, it returns an error.
func ( sses3 ) ParseMetadata ( metadata map [ string ] string ) ( keyID string , kmsKey [ ] byte , sealedKey SealedKey , err error ) {
// Extract all required values from object metadata
b64IV , ok := metadata [ MetaIV ]
if ! ok {
return keyID , kmsKey , sealedKey , errMissingInternalIV
}
algorithm , ok := metadata [ MetaAlgorithm ]
if ! ok {
return keyID , kmsKey , sealedKey , errMissingInternalSealAlgorithm
}
b64SealedKey , ok := metadata [ MetaSealedKeyS3 ]
if ! ok {
return keyID , kmsKey , sealedKey , Errorf ( "The object metadata is missing the internal sealed key for SSE-S3" )
}
// There are two possibilites:
// - We use a KMS -> There must be a key ID and a KMS data key.
// - We use a K/V -> There must be no key ID and no KMS data key.
// Otherwise, the metadata is corrupted.
keyID , idPresent := metadata [ MetaKeyID ]
b64KMSSealedKey , kmsKeyPresent := metadata [ MetaDataEncryptionKey ]
if ! idPresent && kmsKeyPresent {
return keyID , kmsKey , sealedKey , Errorf ( "The object metadata is missing the internal KMS key-ID for SSE-S3" )
}
if idPresent && ! kmsKeyPresent {
return keyID , kmsKey , sealedKey , Errorf ( "The object metadata is missing the internal sealed KMS data key for SSE-S3" )
}
// Check whether all extracted values are well-formed
iv , err := base64 . StdEncoding . DecodeString ( b64IV )
if err != nil || len ( iv ) != 32 {
return keyID , kmsKey , sealedKey , errInvalidInternalIV
}
if algorithm != SealAlgorithm {
return keyID , kmsKey , sealedKey , errInvalidInternalSealAlgorithm
}
encryptedKey , err := base64 . StdEncoding . DecodeString ( b64SealedKey )
if err != nil || len ( encryptedKey ) != 64 {
return keyID , kmsKey , sealedKey , Errorf ( "The internal sealed key for SSE-S3 is invalid" )
}
if idPresent && kmsKeyPresent { // We are using a KMS -> parse the sealed KMS data key.
kmsKey , err = base64 . StdEncoding . DecodeString ( b64KMSSealedKey )
if err != nil {
return keyID , kmsKey , sealedKey , Errorf ( "The internal sealed KMS data key for SSE-S3 is invalid" )
}
}
sealedKey . Algorithm = algorithm
copy ( sealedKey . IV [ : ] , iv )
copy ( sealedKey . Key [ : ] , encryptedKey )
return keyID , kmsKey , sealedKey , nil
}