Commit Graph

58 Commits

Author SHA1 Message Date
Andreas Auernhammer a4d2e2b428 [refactor] simplify en/decrypted size computation (#5658)
This commit replaces the en/decrypted size computation
with functions from the `sio` package.

Fixes #5657
2018-03-19 22:18:12 +05:30
Anis Elleuch cac10bcbf7 SSE-C: Add support in Bucket Post Policy (#5607)
* SSE-C: Add support in Bucket Post Policy

* Rename isSSECustomerRequest & isSSECopyCustomerRequest to hasSSECustomerHeader hasSSECopyCustomerHeader
2018-03-05 08:02:56 -08:00
Harshavardhana 52eea7b9c1
Support SSE-C multipart source objects in CopyObject (#5603)
Current code didn't implement the logic to support
decrypting encrypted multiple parts, this PR fixes
by supporting copying encrypted multipart objects.
2018-03-02 17:24:02 -08:00
Anis Elleuch 120b061966 Add multipart support in SSE-C encryption (#5576)
*) Add Put/Get support of multipart in encryption
*) Add GET Range support for encryption
*) Add CopyPart encrypted support
*) Support decrypting of large single PUT object
2018-03-01 11:37:57 -08:00
Harshavardhana 7cc678c653 Support encryption for CopyObject, GET-Range requests (#5544)
- Implement CopyObject encryption support
- Handle Range GETs for encrypted objects

Fixes #5193
2018-02-23 15:07:21 -08:00
Andreas Auernhammer e95c0bb913 return AWS compliant error if SSE-C key is wrong (#5203)
This PR changes the behavior of DecryptRequest.
Instead of returning `object-tampered` if the client provided
key is wrong DecryptRequest will return `access-denied`.

This is AWS S3 behavior.

Fixes #5202
2017-11-20 14:04:10 -08:00
Andreas Auernhammer a79a7e570c replace SSE-C key derivation scheme (#5168)
This chnage replaces the current SSE-C key derivation scheme. The 'old'
scheme derives an unique object encryption key from the client provided key.
This key derivation was not invertible. That means that a client cannot change
its key without changing the object encryption key.
AWS S3 allows users to update there SSE-C keys by executing a SSE-C COPY with
source == destination. AWS probably updates just the metadata (which is a very
cheap operation). The old key derivation scheme would require a complete copy
of the object because the minio server would not be able to derive the same
object encryption key from a different client provided key (without breaking
the crypto. hash function).

This change makes the key derivation invertible.
2017-11-10 17:21:23 -08:00
Andreas Auernhammer ca6b4773ed add SSE-C support for HEAD, GET, PUT (#4894)
This change adds server-side-encryption support for HEAD, GET and PUT
operations. This PR only addresses single-part PUTs and GETs without
HTTP ranges.

Further this change adds the concept of reserved object metadata which is required
to make encrypted objects tamper-proof and provide API compatibility to AWS S3.
This PR adds the following reserved metadata entries:
- X-Minio-Internal-Server-Side-Encryption-Iv          ('guarantees' tamper-proof property)
- X-Minio-Internal-Server-Side-Encryption-Kdf         (makes Key-MAC computation negotiable in future)
- X-Minio-Internal-Server-Side-Encryption-Key-Mac     (provides AWS S3 API compatibility)

The prefix `X-Minio_Internal` specifies an internal metadata entry which must not
send to clients. All client requests containing a metadata key starting with `X-Minio-Internal`
must also rejected. This is implemented by a generic-handler.

This PR implements SSE-C separated from client-side-encryption (CSE). This cannot decrypt
server-side-encrypted objects on the client-side. However, clients can encrypted the same object
with CSE and SSE-C.

This PR does not address:
 - SSE-C Copy and Copy part
 - SSE-C GET with HTTP ranges
 - SSE-C multipart PUT
 - SSE-C Gateway

Each point must be addressed in a separate PR.

Added to vendor dir:
 - x/crypto/chacha20poly1305
 - x/crypto/poly1305
 - github.com/minio/sio
2017-11-07 15:18:59 -08:00