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[v4,06/21] fscrypt: document btrfs' fscrypt quirks.

Message ID 686fce255e979bd8805e194c7288b80f2ceddbe0.1666651724.git.sweettea-kernel@dorminy.me (mailing list archive)
State Superseded
Headers show
Series btrfs: add fscrypt integration | expand

Commit Message

Sweet Tea Dorminy Oct. 24, 2022, 11:13 p.m. UTC
As btrfs has a couple of quirks in its encryption compared to other
filesystems, they should be documented like ext4's quirks. Additionally,
extent-based contents encryption, being wholly new, deserves its own
section to compare against inode-based contents encryption.

Signed-off-by: Sweet Tea Dorminy <sweettea-kernel@dorminy.me>
Reviewed-by: Josef Bacik <josef@toxicpanda.com>
---
 Documentation/filesystems/fscrypt.rst | 31 +++++++++++++++++++++------
 1 file changed, 25 insertions(+), 6 deletions(-)
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Patch

diff --git a/Documentation/filesystems/fscrypt.rst b/Documentation/filesystems/fscrypt.rst
index 5ba5817c17c2..2ced42afd58b 100644
--- a/Documentation/filesystems/fscrypt.rst
+++ b/Documentation/filesystems/fscrypt.rst
@@ -31,7 +31,7 @@  However, except for filenames, fscrypt does not encrypt filesystem
 metadata.
 
 Unlike eCryptfs, which is a stacked filesystem, fscrypt is integrated
-directly into supported filesystems --- currently ext4, F2FS, and
+directly into supported filesystems --- currently btrfs, ext4, F2FS, and
 UBIFS.  This allows encrypted files to be read and written without
 caching both the decrypted and encrypted pages in the pagecache,
 thereby nearly halving the memory used and bringing it in line with
@@ -280,6 +280,11 @@  included in the IV.  Moreover:
   key derived using the KDF.  Users may use the same master key for
   other v2 encryption policies.
 
+For filesystems with extent-based content encryption (e.g. btrfs),
+this is the only choice. Data shared among multiple inodes must share
+the exact same key, therefore necessitating inodes using the same key
+for contents encryption.
+
 IV_INO_LBLK_64 policies
 -----------------------
 
@@ -374,12 +379,12 @@  to individual filesystems.  However, authenticated encryption (AE)
 modes are not currently supported because of the difficulty of dealing
 with ciphertext expansion.
 
-Contents encryption
--------------------
+Inode-based contents encryption
+------------------------------
 
-For file contents, each filesystem block is encrypted independently.
-Starting from Linux kernel 5.5, encryption of filesystems with block
-size less than system's page size is supported.
+For most filesystems, each filesystem block within each file is
+encrypted independently.  Starting from Linux kernel 5.5, encryption of
+filesystems with block size less than system's page size is supported.
 
 Each block's IV is set to the logical block number within the file as
 a little endian number, except that:
@@ -403,6 +408,20 @@  Note that because file logical block numbers are included in the IVs,
 filesystems must enforce that blocks are never shifted around within
 encrypted files, e.g. via "collapse range" or "insert range".
 
+Extent-based contents encryption
+--------------------------------
+
+For certain filesystems (currently only btrfs), data is encrypted on a
+per-extent basis. Each filesystem block in a data extent is encrypted
+independently. Multiple files may refer to the extent, as long as they
+all share the same key.  The filesystem may relocate the extent on disk,
+as long as the encrypted data within the extent retains its offset
+within the data extent.
+
+Each extent stores a nonce; each block within the extent has an IV
+based on this nonce and the logical block number within the extent as a
+little endian number.
+
 Filenames encryption
 --------------------