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ktls_enable_rx() and ktls_enable_tx() have checks to return EALREADY if the socket already has KTLS enabled. However, these are done without any locks held and nothing blocks concurrent attempts to set the socket option. I believe the worst outcome of the race is leaked memory. Fix the problem by rechecking under the sockbuf lock. While here, unify the locking protocol for sb_tls_info: require both the sockbuf and socket I/O locks in order to enable KTLS. This means that either lock is sufficient for checking whether KTLS is enabled in a given sockbuf, which simplifies some refactoring further down the road. Note that the SOLISTENING() check can go away because SOCK_IO_RECV_LOCK() atomically locks the socket buffer and checks whether the socket is a listening socket. This changes the returned errno value, so update a test which checks it. Reviewed by: gallatin MFC after: 2 weeks Sponsored by: Klara, Inc. Sponsored by: Stormshield Differential Revision: https://reviews.freebsd.org/D45674 |
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atf_python | ||
ci | ||
etc | ||
examples | ||
freebsd_test_suite | ||
include | ||
sys | ||
__init__.py | ||
conftest.py | ||
Kyuafile | ||
Makefile | ||
Makefile.depend | ||
Makefile.inc0 | ||
README |
src/tests: The FreeBSD test suite ================================= Usage of the FreeBSD test suite: (1) Run the tests: kyua test -k /usr/tests/Kyuafile (2) 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/. --