de7a7877e1
Some x86 class CPUs have accelerated intrinsics for SHA1 and SHA256. Provide this functionality on CPUs that support it. This implements CRYPTO_SHA1, CRYPTO_SHA1_HMAC, and CRYPTO_SHA2_256_HMAC. Correctness: The cryptotest.py suite in tests/sys/opencrypto has been enhanced to verify SHA1 and SHA256 HMAC using standard NIST test vectors. The test passes on this driver. Additionally, jhb's cryptocheck tool has been used to compare various random inputs against OpenSSL. This test also passes. Rough performance averages on AMD Ryzen 1950X (4kB buffer): aesni: SHA1: ~8300 Mb/s SHA256: ~8000 Mb/s cryptosoft: ~1800 Mb/s SHA256: ~1800 Mb/s So ~4.4-4.6x speedup depending on algorithm choice. This is consistent with the results the Linux folks saw for 4kB buffers. The driver borrows SHA update code from sys/crypto sha1 and sha256. The intrinsic step function comes from Intel under a 3-clause BSDL.[0] The intel_sha_extensions_sha<foo>_intrinsic.c files were renamed and lightly modified (added const, resolved a warning or two; included the sha_sse header to declare the functions). [0]: https://software.intel.com/en-us/articles/intel-sha-extensions-implementations Reviewed by: jhb Sponsored by: Dell EMC Isilon Differential Revision: https://reviews.freebsd.org/D12452 |
||
---|---|---|
.. | ||
etc | ||
freebsd_test_suite | ||
sys | ||
Kyuafile | ||
Makefile | ||
Makefile.depend | ||
Makefile.inc0 | ||
README |
src/tests: The FreeBSD test suite ================================= To run the FreeBSD test suite: (1) Make sure that kyua is installed: pkg install kyua (2) To run the tests: kyua test -k /usr/tests/Kyuafile (3) To see the test results: kyua report For further information on using the test suite, read tests(7): man tests Description of FreeBSD test suite ================================= The build of the test suite is organized in the following manner: * The build of all test artifacts is protected by the MK_TESTS knob. The user can disable these with the WITHOUT_TESTS setting in src.conf(5). * The goal for /usr/tests/ (the installed test programs) is to follow the same hierarchy as /usr/src/ wherever possible, which in turn drives several of the design decisions described below. This simplifies the discoverability of tests. We want a mapping such as: /usr/src/bin/cp/ -> /usr/tests/bin/cp/ /usr/src/lib/libc/ -> /usr/tests/lib/libc/ /usr/src/usr.bin/cut/ -> /usr/tests/usr.bin/cut/ ... and many more ... * Test programs for specific utilities and libraries are located next to the source code of such programs. For example, the tests for the src/lib/libcrypt/ library live in src/lib/libcrypt/tests/. The tests/ subdirectory is optional and should, in general, be avoided. * The src/tests/ hierarchy (this directory) provides generic test infrastructure and glue code to join all test programs together into a single test suite definition. * The src/tests/ hierarchy also includes cross-functional test programs: i.e. test programs that cover more than a single utility or library and thus don't fit anywhere else in the tree. Consider this to follow the same rationale as src/share/man/: this directory contains generic manual pages while the manual pages that are specific to individual tools or libraries live next to the source code. In order to keep the src/tests/ hierarchy decoupled from the actual test programs being installed --which is a worthy goal because it simplifies the addition of new test programs and simplifies the maintenance of the tree-- the top-level Kyuafile does not know which subdirectories may exist upfront. Instead, such Kyuafile automatically detects, at run-time, which */Kyuafile files exist and uses those directly. Similarly, every directory in src/ that wants to install a Kyuafile to just recurse into other subdirectories reuses this Kyuafile with auto-discovery features. As an example, take a look at src/lib/tests/ whose sole purpose is to install a Kyuafile into /usr/tests/lib/. The goal in this specific case is for /usr/tests/lib/ to be generated entirely from src/lib/. -- $FreeBSD$