History log of /freebsd/sys/crypto/ccp/ccp_lsb.h (Results 1 – 3 of 3)
Revision (<<< Hide revision tags) (Show revision tags >>>) Date Author Comments
Revision tags: release/14.0.0
# 95ee2897 16-Aug-2023 Warner Losh <imp@FreeBSD.org>

sys: Remove $FreeBSD$: two-line .h pattern

Remove /^\s*\*\n \*\s+\$FreeBSD\$$\n/
# 4d846d26 10-May-2023 Warner Losh <imp@FreeBSD.org>

spdx: The BSD-2-Clause-FreeBSD identifier is obsolete, drop -FreeBSD

The SPDX folks have obsoleted the BSD-2-Clause-FreeBSD identifier. Catch
up to that fact and revert to their recommended match of

spdx: The BSD-2-Clause-FreeBSD identifier is obsolete, drop -FreeBSD

The SPDX folks have obsoleted the BSD-2-Clause-FreeBSD identifier. Catch
up to that fact and revert to their recommended match of BSD-2-Clause.

Discussed with: pfg
MFC After: 3 days
Sponsored by: Netflix

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Revision tags: release/13.2.0, release/12.4.0, release/13.1.0, release/12.3.0, release/13.0.0, release/12.2.0, release/11.4.0, release/12.1.0, release/11.3.0, release/12.0.0, release/11.2.0
# 844d9543 18-Jan-2018 Conrad Meyer <cem@FreeBSD.org>

Add ccp(4): experimental driver for AMD Crypto Co-Processor

* Registers TRNG source for random(4)
* Finds available queues, LSBs; allocates static objects
* Allocates a shared MSI-X for all queues.

Add ccp(4): experimental driver for AMD Crypto Co-Processor

* Registers TRNG source for random(4)
* Finds available queues, LSBs; allocates static objects
* Allocates a shared MSI-X for all queues. The hardware does not have
separate interrupts per queue. Working interrupt mode driver.
* Computes SHA hashes, HMAC. Passes cryptotest.py, cryptocheck tests.
* Does AES-CBC, CTR mode, and XTS. cryptotest.py and cryptocheck pass.
* Support for "authenc" (AES + HMAC). (SHA1 seems to result in
"unaligned" cleartext inputs from cryptocheck -- which the engine
cannot handle. SHA2 seems to work fine.)
* GCM passes for block-multiple AAD, input lengths

Largely based on ccr(4), part of cxgbe(4).

Rough performance averages on AMD Ryzen 1950X (4kB buffer):
aesni: SHA1: ~8300 Mb/s SHA256: ~8000 Mb/s
ccp: ~630 Mb/s SHA256: ~660 Mb/s SHA512: ~700 Mb/s
cryptosoft: ~1800 Mb/s SHA256: ~1800 Mb/s SHA512: ~2700 Mb/s

As you can see, performance is poor in comparison to aesni(4) and even
cryptosoft (due to high setup cost). At a larger buffer size (128kB),
throughput is a little better (but still worse than aesni(4)):

aesni: SHA1:~10400 Mb/s SHA256: ~9950 Mb/s
ccp: ~2200 Mb/s SHA256: ~2600 Mb/s SHA512: ~3800 Mb/s
cryptosoft: ~1750 Mb/s SHA256: ~1800 Mb/s SHA512: ~2700 Mb/s

AES performance has a similar story:

aesni: 4kB: ~11250 Mb/s 128kB: ~11250 Mb/s
ccp: ~350 Mb/s 128kB: ~4600 Mb/s
cryptosoft: ~1750 Mb/s 128kB: ~1700 Mb/s

This driver is EXPERIMENTAL. You should verify cryptographic results on
typical and corner case inputs from your application against a known- good
implementation.

Sponsored by: Dell EMC Isilon
Differential Revision: https://reviews.freebsd.org/D12723

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