This allows replacing "sys/eventfilter.h" includes with "sys/_eventfilter.h"
in other header files (e.g., sys/{bus,conf,cpu}.h) and reduces header
pollution substantially.
EVENTHANDLER_DECLARE and EVENTHANDLER_LIST_DECLAREs were moved out of .c
files into appropriate headers (e.g., sys/proc.h, powernv/opal.h).
As a side effect of reduced header pollution, many .c files and headers no
longer contain needed definitions. The remainder of the patch addresses
adding appropriate includes to fix those files.
LOCK_DEBUG and LOCK_FILE_LINE_ARG are moved to sys/_lock.h, as required by
sys/mutex.h since r326106 (but silently protected by header pollution prior
to this change).
No functional change (intended). Of course, any out of tree modules that
relied on header pollution for sys/eventhandler.h, sys/lock.h, or
sys/mutex.h inclusion need to be fixed. __FreeBSD_version has been bumped.
Remove unused and easy to misuse PNP macro parameter
Inspired by r338025, just remove the element size parameter to the
MODULE_PNP_INFO macro entirely. The 'table' parameter is now required to
have correct pointer (or array) type. Since all invocations of the macro
already had this property and the emitted PNP data continues to include the
element size, there is no functional change.
Mostly done with the coccinelle 'spatch' tool:
$ cat modpnpsize0.cocci
@normaltables@
identifier b,c;
expression a,d,e;
declarer MODULE_PNP_INFO;
@@
MODULE_PNP_INFO(a,b,c,d,
-sizeof(d[0]),
e);
@singletons@
identifier b,c,d;
expression a;
declarer MODULE_PNP_INFO;
@@
MODULE_PNP_INFO(a,b,c,&d,
-sizeof(d),
1);
$ rg -l MODULE_PNP_INFO -- sys | \
xargs spatch --in-place --sp-file modpnpsize0.cocci
(Note that coccinelle invokes diff(1) via a PATH search and expects diff to
tolerate the -B flag, which BSD diff does not. So I had to link gdiff into
PATH as diff to use spatch.)
Tinderbox'd (-DMAKE_JUST_KERNELS).
Approved by: re (glen)
Remove the PNP info for the moment from the driver. It's an
experimental driver (as noted in r328150). It's performance is about
1/10th that of aesni. It will often panic when used with GELI (PR
2279820). It's not in our best interest to have such a driver be
autoloaded by default.
Approved by: re@ (rgrimes)
Reviewed By: cem@
Differential Review: https://reviews.freebsd.org/D16959
I was not aware Warner was making or planning to make forward progress in
this area and have since been informed of that.
It's easy to apply/reapply when churn dies down.
Inspired by r338025, just remove the element size parameter to the
MODULE_PNP_INFO macro entirely. The 'table' parameter is now required to
have correct pointer (or array) type. Since all invocations of the macro
already had this property and the emitted PNP data continues to include the
element size, there is no functional change.
Mostly done with the coccinelle 'spatch' tool:
$ cat modpnpsize0.cocci
@normaltables@
identifier b,c;
expression a,d,e;
declarer MODULE_PNP_INFO;
@@
MODULE_PNP_INFO(a,b,c,d,
-sizeof(d[0]),
e);
@singletons@
identifier b,c,d;
expression a;
declarer MODULE_PNP_INFO;
@@
MODULE_PNP_INFO(a,b,c,&d,
-sizeof(d),
1);
$ rg -l MODULE_PNP_INFO -- sys | \
xargs spatch --in-place --sp-file modpnpsize0.cocci
(Note that coccinelle invokes diff(1) via a PATH search and expects diff to
tolerate the -B flag, which BSD diff does not. So I had to link gdiff into
PATH as diff to use spatch.)
Tinderbox'd (-DMAKE_JUST_KERNELS).
Track session objects in the framework, and pass handles between the
framework (OCF), consumers, and drivers. Avoid redundancy and complexity in
individual drivers by allocating session memory in the framework and
providing it to drivers in ::newsession().
Session handles are no longer integers with information encoded in various
high bits. Use of the CRYPTO_SESID2FOO() macros should be replaced with the
appropriate crypto_ses2foo() function on the opaque session handle.
Convert OCF drivers (in particular, cryptosoft, as well as myriad others) to
the opaque handle interface. Discard existing session tracking as much as
possible (quick pass). There may be additional code ripe for deletion.
Convert OCF consumers (ipsec, geom_eli, krb5, cryptodev) to handle-style
interface. The conversion is largely mechnical.
The change is documented in crypto.9.
Inspired by
https://lists.freebsd.org/pipermail/freebsd-arch/2018-January/018835.html .
No objection from: ae (ipsec portion)
Reported by: jhb
after the array to its proper location. Otherwise, the linker.hints
file has things out of order and we associated it with whatever was
the previous module.
Apply r328361 to duplicate copy of ccr_gcm_soft in ccp(4).
Properly honor the lack of the CRD_F_IV_PRESENT flag in the GCM software
fallback case for encryption requests.
* 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