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This is not yet complete, only the ks_volatile driver supports it,
ks_flash will be a bit more complicated and isn't written yet.
At the moment, this adds a complete duplicate set of
{set,get,delete}_attributes() functions in parallel to the earlier
{set,get,delete}_attribute() functions. We will almost certainly want
to get rid of the duplicates, probably (but not necessarily) the
entire single-attribute suite. At the moment, though, we want both
sets so we can compare execution speeds of the two sets of functions.
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Old calling sequence didn't quite work, caller had no sane way to know
how large the buffer needed to be. Revised sequence is similar to
what the PKCS #11 C_FindObject() call does: return the next batch of
UUIDs, up to the number specified, end of data indicated by getting
back something less than a full block of UUIDs.
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The debugging code was for tracking down what turned out to be a race
condition in the Alpha's flash driver code (see sw/stm32); much of
this was temporary, and will be removed in a (near) future commit, but
some of the techniques were useful and belong in the repository in
case we need to pull them back for something similar in the future.
hal_ks_index_fsck() attempts to diagnose all the things I found wrong
in the ks_flash index after one long series of errors. As presently
written, it doesn't attempt to fix anything, just diagnose errors: the
intent is that we can call this, before and after every modification
if necessary, to poinpoint exactly which calls introduce errors. Once
things stablize a bit, we may want to crank down the number of calls
to this (it's a bit expensive, since it checks the entire index), and
perhaps add the ability to clean up whatever errors it might find; the
latter might be a good candidate for a CLI command.
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This is more complicated than I'd have liked, because the PKCS #11
semantics are (much) more complicated than just "are you logged in?"
New code passes basic testing with libhal.py and the PKCS #11 unit
tests, but there are still unexplored corner cases to be checked.
Private token objects remain simple. Code which does not need PKCS
HAL_KEY_FLAG_TOKEN and avoid HAL_KEY_FLAG_PUBLIC.
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In retrospect it's obvious that this never needed to be an
input/output argument, as its value will always be the same as the
last value in the returned array. Doh. So simplify the RPC and call
sequence slightly by removing the unnecessary output value.
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The filtering code for this function has not been tested yet.
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Passes PKCS #11 "make test" but nothing uses the new attribute code yet.
Refactored some of the flash block update code.
Attribute code is annoyingly verbose, might be possible to refactor
some of that.
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Mostly this is another checkpoint (still passes PKCS #11 "make test").
ks_volatile.c now contains support for per-session object visibility;
this may need more work to support things like a CLI view of all
objects regardless of session. Adding this required minor changes to
the keystore and pkey APIs, mostly because sessions are per-client.
ks_volatile.c also contains an untested first cut at attribute
support. Attribute support in ks_flash.c still under construction.
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This is mostly to archive a commit where PKCS #11 "make test" still
works after converting the ks_volatile code to use SDRAM allocated at
startup instead of (large) static variables.
The attribute code itself is incomplete at this point.
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The main reason for supporting multi-block objects is to allow the
PKCS #11 code to attach more attributes than will fit comfortably in a
single flash block. This may turn out to be unnecessary once we've
fleshed out the attribute storage and retrieval code; if so, we can
simplify the code, but this way the keystore won't impose arbitrary
(and somewhat inscrutable) size limits on PKCS #11 attributes for
large keys.
This snapshot passes light testing (PKCS #11 "make test" runs), but
the tombstone recovery code in ks_init() is a bit involved, and needs
more testing with simulated failures (probably induced under GDB).
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Whack masterkey code to meet libhal coding standards, such as they
are.
Started layout of new ks_flash data structures but no changes to
functions or flash usage yet.
MKM initialization from flash placed under compile-time conditional
with warning because it's a dangerous kludge that should go away.
Started getting rid of obsolete keystore code; ks_mmap.c kept for now,
until I get around to merging the useful bits into ks_volatile.
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Now that key names are UUIDs generated by the HSM, there's no real
need to specify type key type when looking up a key, and removing the
`type` argument allows a few simplifications of both the internal
keystore API and of client code calling the public RPC API.
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Fixes for various minor issues found while integrating with sw/stm32.
Moving the in-memory keystore (PKCS #11 session objects, etc) from the
client library to the HSM was on the near term to-do list in any case,
doing it now turned out to be the easiest way to solve one of the
build problems.
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Changes to implement a revised keystore API. This code probably won't
even compile properly yet, and almost certainly will not run, but most
of the expected changes are complete at this point. Main points:
* Key names are now UUIDs, and are generated by the HSM, not the client.
* Keystore API no longer assumes that key database is resident in
memory (original API was written on the assumption that the keystore
flash would be mapped into the HSM CPU's address space, but
apparently the board and flash drivers don't really support that).
A few other changes have probably crept in, but the bulk of this
changeset is just following through implications of the above, some of
which percolate all the way back to the public RPC API.
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silliness, with a bit of PKCS #1.5 padding silliness for desert.
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are secure (the one in ks_flash.c is a stub, and the others are for
cases where we have no secure hardware in which to store the KEK).
These are primarily for testing, since in the long run the entire
software implementation of AES-keywrap will be replaced by Verilog
which never lets software see the unwrapped key. Or so says current
theory. For the moment, we just need something that will let us test
the rest of the RPC and keystore mechanisms.
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public key extraction functions on hold pending ASN.1 cleanup.
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