701697521c
sources to return timestamps when SO_TIMESTAMP is enabled. Two additional clock sources are: o nanosecond resolution realtime clock (equivalent of CLOCK_REALTIME); o nanosecond resolution monotonic clock (equivalent of CLOCK_MONOTONIC). In addition to this, this option provides unified interface to get bintime (equivalent of using SO_BINTIME), except it also supported with IPv6 where SO_BINTIME has never been supported. The long term plan is to depreciate SO_BINTIME and move everything to using SO_TS_CLOCK. Idea for this enhancement has been briefly discussed on the Net session during dev summit in Ottawa last June and the general input was positive. This change is believed to benefit network benchmarks/profiling as well as other scenarios where precise time of arrival measurement is necessary. There are two regression test cases as part of this commit: one extends unix domain test code (unix_cmsg) to test new SCM_XXX types and another one implementis totally new test case which exchanges UDP packets between two processes using both conventional methods (i.e. calling clock_gettime(2) before recv(2) and after send(2)), as well as using setsockopt()+recv() in receive path. The resulting delays are checked for sanity for all supported clock types. Reviewed by: adrian, gnn Differential Revision: https://reviews.freebsd.org/D9171 |
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aio/aiop | ||
atm | ||
audit/audit_pipe_ioctl | ||
bpf | ||
capsicum/syscalls | ||
ccd/layout | ||
doat | ||
environ | ||
ethernet/ethermulti | ||
fsx | ||
gaithrstress | ||
geom | ||
geom_gpt | ||
include | ||
ipfw/fwd | ||
ipsec | ||
iscsi | ||
kgssapi | ||
kthread/kld | ||
lib/libc/regex | ||
mlock | ||
msdosfs | ||
net/if_tap | ||
net80211 | ||
netinet | ||
netinet6 | ||
nfsmmap | ||
p1003_1b | ||
poll | ||
posixsem | ||
posixsem2 | ||
priv | ||
pthread | ||
redzone9 | ||
rpcsec_gss | ||
security | ||
sigqueue | ||
sockets | ||
sysvmsg | ||
sysvsem | ||
sysvshm | ||
tls | ||
tmpfs | ||
ufs/uprintf | ||
usb | ||
usr.bin | ||
zfs | ||
README | ||
TODO |
$FreeBSD$ This directory is for regression test programs. A regression test program is one that will exercise a particular bit of the system to check that we have not reintroduced an old bug. Tests should be implemented in files with a .t extension. Each .t file can contain more than one test, and can be implemented in any scripting language -- /bin/sh, Perl... The test protocol is quite simple. At its most basic, each .t file should, when run, print a line in this format: 1..m where m is the number of tests that will be run. Each test should produce a single line of output. This line should start with one of ok n not ok n to indicate whether or not the test succeeded. 'n' is the test's number. Anything after this on the line (up to the first '#' if present) is considered to be the name of the test. Naming tests is optional, but encouraged. A test may be written which is conditional, and may need to be skipped. For example, the netinet tests require 'options INET' in the kernel. A test may be skipped by printing '# skip Reason for skipping' after the test name. For example, ok 1 - netinet # skip 'options INET' not compiled in A test may be flagged as 'todo'. This indicates that you expect the test to fail (perhaps because the necessary functionality hasn't been written yet). 'todo' tests are expected to fail, so when they start working the test framework can alert you to this happy occurrence. Flag these tests with a '# TODO' comment after the test name not ok 1 - infiniteloop # TODO write test for an infinite loop This is modelled on the protocol followed by the Test::Harness Perl module (and therefore much of the automated testing carried out by the Perl community). More documentation can be found at: http://search.cpan.org/~petdance/Test-Harness-2.42/lib/Test/Harness.pm To run the tests and parse their output install the devel/p5-Test-Harness port. This includes the prove(1) command which is used to run the tests and collate the output. prove geom_concat # run all the tests in geom_concat prove -r lib # run all tests in lib/, and subdirectories prove -r -v lib # as above, with verbose output prove -r # run *all* the tests Tests that are for parts of the base system should go into a directory here which is the same as their path relative to src/, for example the uuencode(1) utility resides in src/usr.bin/uuencode so its regression test resides in src/tools/regression/usr.bin/uuencode. To avoid the pre-commit check program complaining about the lack of CVS keywords in test data files, use a .in suffix for input files and a .out suffix for output files. To execute individual regression tests for binaries that you are developing, add their directory in the path before running the tests. Example: cd /usr/src/tools/regression/usr.bin (PATH=/home/user/src/experimental/jot:$PATH ; make SUBDIR=jot) Please make a subdir per other regression test, and add a brief description to this file. acct Exercise the integer to float conversion used in acct(5) geom Some tests and an out-of-kernel simulator for the GEOM code nfsmmap Some tests to exercise some tricky cases in NFS and mmap p1003_1b Exercise 1003.1B scheduler pipe Pipe code regression test fsx General filesystem exerciser sysvmsg SysV IPC Message Queue Regression Utility sysvsem SysV IPC Semaphore Regression Utility sysvshm SysV IPC Shared Memory Regression Utility gaithrstress General threaded getaddrinfo(3) exerciser date Date(1) + format string regression test