[PATCH v2 0/8] ensure bios aren't split in middle of crypto data unit

From: Satya Tangirala
Date: Thu Mar 25 2021 - 17:28:09 EST


When a bio has an encryption context, its size must be aligned to its
crypto data unit size. A bio must not be split in the middle of a data
unit. Currently, bios are split at logical block boundaries, but a crypto
data unit size might be larger than the logical block size - e.g. a machine
could be using fscrypt (which uses 4K crypto data units) with an eMMC block
device with inline encryption hardware that has a logical block size of 512
bytes. So we need to support cases where the data unit size is larger than
the logical block size.

Patch 1 introduces blk_ksm_is_empty() that checks whether a keyslot manager
advertises a non-zero number of crypto capabilities. This function helps
clean up code a little.

Patch 2 handles the error code from blk_ksm_register() in all callers.
This return code was previously ignored by all callers because the function
could only fail if the request_queue had integrity support, which the
callers ensured would not be the case. But the later patches in this series
will add more cases where this function might fail, so it's better to just
handle the return code properly in all the callers.

Patch 3 and 4 introduce blk_crypto_bio_sectors_alignment() and
bio_required_sector_alignment() respectively. The former returns the
required sector alignment due to any crypto requirements the bio has. The
latter returns the required sector alignment due to any reason. The number
of sectors in any bio (and in particular, the number of sectors passed to
bio_split) *must* be aligned to the value returned by the latter function
(which, of course, calls the former function to decide what to return).

Patch 5 updates blk-crypto-fallback.c to respect
bio_required_sector_alignment() when calling bio_split(), so that any split
bio's size has the required alignment.

Patch 6 introduces restrictions on the data unit sizes advertised by a
keyslot manager. These restrictions come about due to the request_queue's
queue_limits, and are required to ensure that blk_bio_segment_split() can
always split a bio so that it has a limited number of sectors and segments,
and that the number of sectors it has is non-zero and aligned to
bio_required_sector_alignment().

Patch 7 updates get_max_io_size() and blk_bio_segment_split() to respect
bio_required_sector_alignment(). get_max_io_size() always returns a
value that is aligned to bio_required_sector_alignment(), and together
with Patch 6, this is enough to ensure that if the bio is split, it is
split at a crypto data unit size boundary.

Since all callers to bio_split() should have been updated by the previous
patches, Patch 8 adds a WARN_ON() to bio_split() when sectors isn't aligned
to bio_required_sector_alignment() (the one exception is bounce.c which is
legacy code and won't interact with inline encryption).

This patch series was tested by running android xfstests on the SDM630
chipset (which has eMMC inline encryption hardware with logical block size
512 bytes) with test_dummy_encryption with and without the 'inlinecrypt'
mount option.

Satya Tangirala (8):
block: introduce blk_ksm_is_empty()
dm,mmc,ufshcd: handle error from blk_ksm_register()
block: blk-crypto: introduce blk_crypto_bio_sectors_alignment()
block: introduce bio_required_sector_alignment()
block: respect bio_required_sector_alignment() in blk-crypto-fallback
block: keyslot-manager: introduce
blk_ksm_restrict_dus_to_queue_limits()
blk-merge: Ensure bios aren't split in middle of a crypto data unit
block: add WARN() in bio_split() for sector alignment

block/bio.c | 1 +
block/blk-crypto-fallback.c | 3 ++
block/blk-crypto-internal.h | 18 ++++++++
block/blk-merge.c | 49 ++++++++++++++--------
block/blk.h | 12 ++++++
block/keyslot-manager.c | 72 ++++++++++++++++++++++++++++++++
drivers/md/dm-table.c | 14 ++-----
drivers/mmc/core/crypto.c | 6 ++-
drivers/scsi/ufs/ufshcd-crypto.c | 6 ++-
include/linux/keyslot-manager.h | 2 +
10 files changed, 150 insertions(+), 33 deletions(-)

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