encryption: Fix copy from encrypted multipart to single part (#6604)

CopyObject handler forgot to remove multipart encryption flag in metadata
when source is an encrypted multipart object and the target is also encrypted
but single part object.

This PR also simplifies the code to facilitate review.
This commit is contained in:
Anis Elleuch 2018-10-15 19:07:36 +01:00 committed by kannappanr
parent 3ef3fefd54
commit 5b3090dffc
4 changed files with 70 additions and 37 deletions

View File

@ -80,6 +80,28 @@ func hasServerSideEncryptionHeader(header http.Header) bool {
return crypto.S3.IsRequested(header) || crypto.SSEC.IsRequested(header)
}
// isEncryptedMultipart returns true if the current object is
// uploaded by the user using multipart mechanism:
// initiate new multipart, upload part, complete upload
func isEncryptedMultipart(objInfo ObjectInfo) bool {
if len(objInfo.Parts) == 0 {
return false
}
if !crypto.IsMultiPart(objInfo.UserDefined) {
return false
}
for _, part := range objInfo.Parts {
_, err := sio.DecryptedSize(uint64(part.Size))
if err != nil {
return false
}
}
// Further check if this object is uploaded using multipart mechanism
// by the user and it is not about XL internally splitting the
// object into parts in PutObject()
return !(objInfo.backendType == BackendErasure && len(objInfo.ETag) == 32)
}
// ParseSSECopyCustomerRequest parses the SSE-C header fields of the provided request.
// It returns the client provided key on success.
func ParseSSECopyCustomerRequest(h http.Header, metadata map[string]string) (key []byte, err error) {
@ -361,7 +383,7 @@ func newDecryptReaderWithObjectKey(client io.Reader, objectEncryptionKey []byte,
// GetEncryptedOffsetLength - returns encrypted offset and length
// along with sequence number
func GetEncryptedOffsetLength(startOffset, length int64, objInfo ObjectInfo) (seqNumber uint32, encStartOffset, encLength int64) {
if len(objInfo.Parts) == 0 || !crypto.IsMultiPart(objInfo.UserDefined) {
if !isEncryptedMultipart(objInfo) {
seqNumber, encStartOffset, encLength = getEncryptedSinglePartOffsetLength(startOffset, length, objInfo)
return
}
@ -378,7 +400,7 @@ func DecryptBlocksRequestR(inputReader io.Reader, h http.Header, offset,
bucket, object := oi.Bucket, oi.Name
// Single part case
if len(oi.Parts) == 0 || !crypto.IsMultiPart(oi.UserDefined) {
if !isEncryptedMultipart(oi) {
var reader io.Reader
var err error
if copySource {
@ -708,7 +730,7 @@ func DecryptBlocksRequest(client io.Writer, r *http.Request, bucket, object stri
var seqNumber uint32
var encStartOffset, encLength int64
if len(objInfo.Parts) == 0 || !crypto.IsMultiPart(objInfo.UserDefined) {
if !isEncryptedMultipart(objInfo) {
seqNumber, encStartOffset, encLength = getEncryptedSinglePartOffsetLength(startOffset, length, objInfo)
var writer io.WriteCloser
@ -870,7 +892,7 @@ func (o *ObjectInfo) DecryptedSize() (int64, error) {
if !crypto.IsEncrypted(o.UserDefined) {
return 0, errors.New("Cannot compute decrypted size of an unencrypted object")
}
if len(o.Parts) == 0 || !crypto.IsMultiPart(o.UserDefined) {
if !isEncryptedMultipart(*o) {
size, err := sio.DecryptedSize(uint64(o.Size))
if err != nil {
err = errObjectTampered // assign correct error type
@ -918,7 +940,7 @@ func (o *ObjectInfo) GetDecryptedRange(rs *HTTPRangeSpec) (encOff, encLength, sk
}
sizes := []int64{int64(partSize)}
decObjSize = sizes[0]
if crypto.IsMultiPart(o.UserDefined) {
if isEncryptedMultipart(*o) {
sizes = make([]int64, len(o.Parts))
decObjSize = 0
for i, part := range o.Parts {

View File

@ -109,8 +109,12 @@ type ObjectInfo struct {
Writer io.WriteCloser `json:"-"`
Reader *hash.Reader `json:"-"`
metadataOnly bool
// Date and time when the object was last accessed.
AccTime time.Time
// backendType indicates which backend filled this structure
backendType BackendType
}
// ListPartsInfo - represents list of all parts.

View File

@ -795,10 +795,6 @@ func (api objectAPIHandlers) CopyObjectHandler(w http.ResponseWriter, r *http.Re
return
}
// Save the original size for later use when we want to copy
// encrypted file into an unencrypted one.
size := srcInfo.Size
var encMetadata = make(map[string]string)
if objectAPI.IsEncryptionSupported() && !srcInfo.IsCompressed() {
var oldKey, newKey []byte
@ -806,10 +802,12 @@ func (api objectAPIHandlers) CopyObjectHandler(w http.ResponseWriter, r *http.Re
sseCopyC := crypto.SSECopy.IsRequested(r.Header)
sseC := crypto.SSEC.IsRequested(r.Header)
sseS3 := crypto.S3.IsRequested(r.Header)
if sseC || sseS3 {
if sseC {
newKey, err = ParseSSECustomerRequest(r)
}
isSourceEncrypted := sseCopyC || sseCopyS3
isTargetEncrypted := sseC || sseS3
if sseC {
newKey, err = ParseSSECustomerRequest(r)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
@ -836,42 +834,49 @@ func (api objectAPIHandlers) CopyObjectHandler(w http.ResponseWriter, r *http.Re
// Since we are rotating the keys, make sure to update the metadata.
srcInfo.metadataOnly = true
} else {
if sseCopyC || sseCopyS3 {
if isSourceEncrypted || isTargetEncrypted {
// We are not only copying just metadata instead
// we are creating a new object at this point, even
// if source and destination are same objects.
srcInfo.metadataOnly = false
if sseC || sseS3 {
size = srcInfo.Size
}
}
if sseC || sseS3 {
// Calculate the size of the target object
var targetSize int64
switch {
case !isSourceEncrypted && !isTargetEncrypted:
fallthrough
case isSourceEncrypted && isTargetEncrypted:
targetSize = srcInfo.Size
// Source not encrypted and target encrypted
case !isSourceEncrypted && isTargetEncrypted:
targetSize = srcInfo.EncryptedSize()
case isSourceEncrypted && !isTargetEncrypted:
targetSize, _ = srcInfo.DecryptedSize()
}
if isTargetEncrypted {
reader, err = newEncryptReader(reader, newKey, dstBucket, dstObject, encMetadata, sseS3)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
// We are not only copying just metadata instead
// we are creating a new object at this point, even
// if source and destination are same objects.
srcInfo.metadataOnly = false
if !sseCopyC && !sseCopyS3 {
size = srcInfo.EncryptedSize()
}
} else {
if sseCopyC || sseCopyS3 {
size, _ = srcInfo.DecryptedSize()
delete(srcInfo.UserDefined, crypto.SSEIV)
delete(srcInfo.UserDefined, crypto.SSESealAlgorithm)
delete(srcInfo.UserDefined, crypto.SSECSealedKey)
delete(srcInfo.UserDefined, crypto.SSEMultipart)
delete(srcInfo.UserDefined, crypto.S3SealedKey)
delete(srcInfo.UserDefined, crypto.S3KMSSealedKey)
delete(srcInfo.UserDefined, crypto.S3KMSKeyID)
}
}
srcInfo.Reader, err = hash.NewReader(reader, size, "", "", size) // do not try to verify encrypted content
if isSourceEncrypted {
// Remove all source encrypted related metadata to
// avoid copying them in target object.
delete(srcInfo.UserDefined, crypto.SSEIV)
delete(srcInfo.UserDefined, crypto.SSESealAlgorithm)
delete(srcInfo.UserDefined, crypto.SSECSealedKey)
delete(srcInfo.UserDefined, crypto.SSEMultipart)
delete(srcInfo.UserDefined, crypto.S3SealedKey)
delete(srcInfo.UserDefined, crypto.S3KMSSealedKey)
delete(srcInfo.UserDefined, crypto.S3KMSKeyID)
}
srcInfo.Reader, err = hash.NewReader(reader, targetSize, "", "", targetSize) // do not try to verify encrypted content
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return

View File

@ -218,6 +218,8 @@ func (m xlMetaV1) ToObjectInfo(bucket, object string) ObjectInfo {
ContentEncoding: m.Meta["content-encoding"],
}
objInfo.backendType = BackendErasure
// Extract etag from metadata.
objInfo.ETag = extractETag(m.Meta)