- By popular demand, implement a different switch ("T") for toggling
between thread id and process id.
- Add an assert that the size of command chars is as expected.
- Also clean up some messiness I found when implementing this.
- Further document the new flag.
Requested by: flo, ronald-lists@klop.ws, bapt
PR: 139389 (for the record)
X-MFC-With: r334474
This caused issues with PASTE. Just remove the reschedule since the DELAY()
should be enough for use cases such as pkt-gen which were failing before the
change.
Reported by: Michio Honda
Sponsored by: Limelight Networks
Per-cpu zone allocations are very rarely done compared to regular zones.
The intent is to avoid pessimizing the latter case with per-cpu specific
code.
In particular contrary to the claim in r334824, M_ZERO is sometimes being
used for such zones. But the zeroing method is completely different and
braching on it in the fast path for regular zones is a waste of time.
callbacks to perform additional cleanup actions at the time a socket is
closed.
Michio Honda presented a use for this at BSDCan 2018.
(See https://www.bsdcan.org/2018/schedule/events/965.en.html .)
Submitted by: Michio Honda <micchie at sfc.wide.ad.jp> (previous version)
Reviewed by: lstewart (previous version)
Differential Revision: https://reviews.freebsd.org/D15706
With the introduction of pmap_switch(), the DSB instruction on the
address map switch is not necessary executed, which is fixed by
changing the unlock store to release. Also remove comment which
documented pre-pmap_switch() code.
Reviewed by: andrew
Sponsored by: The FreeBSD Foundation
MFC after: 1 week
If we fail noise floor calibration then we may end up with a deaf NIC
which we can't recover without a full chip reset.
Earlier chips seem to get less stuck in this condition versus AR9280/later
and AR9300/later, but whilst here just fix up the AR5212 era chips to also
return NF calibration failures.
This HAL routine would only return failure if the channel was not configured.
This is a no-op until the driver side code for doing resets and the HAL
code for being told about the reset type (and then handling it!) is
implemented.
Tested:
* AR9280, STA mode
* AR2425, STA mode
* AR9380, STA mode
d4a72f2386
During scans (scrubs or resilvers), it sorts the blocks in each transaction
group by block offset; the result can be a significant improvement. (On my
test system just now, which I put some effort to introduce fragmentation into
the pool since I set it up yesterday, a scrub went from 1h2m to 33.5m with the
changes.) I've seen similar rations on production systems.
Approved by: Alexander Motin
Obtained from: ZFS On Linux
Relnotes: Yes (improved scrub performance, with tunables)
Differential Revision: https://reviews.freebsd.org/D15562
Turns out there is code which ends up passing M_ZERO to counters.
Since counters zero unconditionally on their own, just ignore drop the
flag in that place.
pmc_process_interrupt takes 5 arguments when only 3 are needed.
cpu is always available in curcpu and inuserspace can always be
derived from the passed trapframe.
While facially a reasonable cleanup this change was motivated
by the need to workaround a compiler bug.
core2_intr(cpu, tf) ->
pmc_process_interrupt(cpu, ring, pmc, tf, inuserspace) ->
pmc_add_sample(cpu, ring, pm, tf, inuserspace)
In the process of optimizing the tail call the tf pointer was getting
clobbered:
(kgdb) up
at /storage/mmacy/devel/freebsd/sys/dev/hwpmc/hwpmc_mod.c:4709
4709 pmc_save_kernel_callchain(ps->ps_pc,
(kgdb) up
1205 error = pmc_process_interrupt(cpu, PMC_HR, pm, tf,
resulting in a crash in pmc_save_kernel_callchain.
Nothing in the tree uses it and pcpu zones have a fundamentally different use
case than the regular zones - they are not supposed to be allocated and freed
all the time.
This reduces pollution in the allocation fast path.
(or peel off the band-aid, whatever floats your boat)
This addresses two separate issues:
1.) Nothing within bsdgrep actually knew whether it cared about line numbers
or not.
2.) The file layer knew nothing about the context in which it was being
called.
#1 is only important when we're *not* processing line-by-line. #2 is
debatably a good idea; the parsing context is only handy because that's
where we store current offset information and, as of this commit, whether or
not it needs to be line-aware.
memset fills the target buffer from a byte-sized value passed in as the
second argument.
The fully-sized (8 bytes) register containing it is named %rsi. Lower 4 bytes
can be referred to as %esi and finally the lowest byte is %sil.
Vast majority of all the callers just zero the target buffer and set it up by
doing xor %esi,%esi which has a side-effect of zeroing the upper parts of
the register as well. Some others do a word-sized move to %esi which has the
same result.
However, there are callers which only fill %sil. This does *not* clear up
the rest of the register.
The value of %rsi is multiplied by $0x0101010101010101 to create a 8-byte sized
pattern for 8-byte stores.
Prior to the patch, the func just blindly took %rsi assuming the unwanted bytes
are zeroed out. Since this is not the case for the callers which only play with
%sil (the rest of the register can have absolutely anything), the resulting
pattern can be garbage.
This has potential for funny bugs. One side effect (which was not amusing)
after enabling it instead of bzero was that the kernel was hanging on boot
as a xen domU.
Reported by: Trond Endrestøl <Trond.Endrestol fagskolen.gjovik.no>
Pointy hat: me
trashing freed memory and checking that allocated memory is properly
trashed, and also of keeping a bitset of freed items. Trashing/checking
creates a lot of CPU cache poisoning, while keeping debugging bitsets
consistent creates a lot of contention on UMA zone lock(s). The performance
difference between INVARIANTS kernel and normal one is mostly attributed
to UMA debugging, rather than to all KASSERT checks in the kernel.
Add loader tunable vm.debug.divisor that allows either to turn off UMA
debugging completely, or turn it on only for a fraction of allocations,
while still running all KASSERTs in kernel. That allows to run INVARIANTS
kernels in production environments without reducing load by orders of
magnitude, but still doing useful extra checks.
Default value is 1, meaning debug every allocation. Value of 0 would
disable UMA debugging completely. Values above 1 enable debugging only
for every N-th item. It isn't possible to strictly follow the number,
but still amount of debugging is reduced roughly by (N-1)/N percent.
Sponsored by: Netflix
Differential Revision: https://reviews.freebsd.org/D15199
given interval, which is counted in seconds since exit of the previous
invocation of the job. Example user crontab entry:
@25 sleep 10
The example will launch 'sleep 10' every 35 seconds. This is a rather
useless example above, but clearly explains the functionality.
The practical goal here is to avoid overlap of previous job invocation
to a new one, or to avoid too short interval(s) for jobs that last long
and doesn't have any point of immediate launch soon after previous run.
Another useful effect of interval jobs can be noticed when a cluster of
machines periodically communicates with a single node. Running the task
time based creates too much load on the node. Running interval based
spreads invocations across machines in cluster. Note that -j/-J won't
help in this case.
Sponsored by: Netflix
Changed excise_initrd_region to support both 32- and 64-bit
values for linux,initrd-start and linux,initrd-end.
This fixes the boot problem on some machines after rS334485.
Submitted by: Luis Pires <lffpires@ruabrasil.org>
Reviewed by: jhibbits, leitao
Approved by: jhibbits (mentor)
Differential Revision: https://reviews.freebsd.org/D15667
myriad ways that the various compliers treat this. The
only safe prefetch appears to be for AMD. The other
compilers either are not volatile or are not const :(
Reported by: Michael Tuexen
When we're at our vnode limit, getnewvnode will call into the vnode LRU
cache to free up vnodes. If the vnode we try to recycle is a ZFS vnode we
end up, eventually, in zfs_rmnode. If the ZFS vnode we're recycling
represents something with extended attributes, zfs_rmnode will call
zfs_zget which will attempt to allocate another vnode. If the next vnode we
try to recycle is also a ZFS vnode representing something with extended
attributes we can recurse further. This ends up being unbounded and can end
up overflowing the stack.
In order to avoid this, restructure zfs_rmnode to simply add the extended
attribute directory's object ID to the unlinked set, thus not requiring the
allocation of a vnode. We then schedule a task that calls zfs_unlinked_drain
which will do the work of properly marking the vnodes for unlinking.
zfs_unlinked_drain is also called on mount so these will be cleaned up
there.
Reviewed by: avg, mav
Sponsored by: iXsystems, Inc.
Differential Revision: https://reviews.freebsd.org/D15342
Admittedly, this is a clang-scan complaint... but it wasn't wrong. fts_flags
is initialized by all cases in the switch(), which should be fairly obvious.
Annotate this anyways.
Neither procfile nor grep_tree return anything meaningful to their callers.
None of the callers actually care about how many lines were matched in all
of the files they processed; it's all about "did anything match?"
This is generally just a light refactoring to remind me of what actually
matters as I'm rewriting these bits to care less about 'stuff'.
than $4. Introduce $BASEBITSDIR for clarity and to avoid repeating this
mistake in the future. Fixing this ensures that we pick up newly built
boot bits native to the target rather for/from the host.
- Apply some of the argument quoting fixes done in r287635 but missing in
later revisions.
Rack includes the following features:
- A different SACK processing scheme (the old sack structures are not used).
- RACK (Recent acknowledgment) where counting dup-acks is no longer done
instead time is used to knwo when to retransmit. (see the I-D)
- TLP (Tail Loss Probe) where we will probe for tail-losses to attempt
to try not to take a retransmit time-out. (see the I-D)
- Burst mitigation using TCPHTPS
- PRR (partial rate reduction) see the RFC.
Once built into your kernel, you can select this stack by either
socket option with the name of the stack is "rack" or by setting
the global sysctl so the default is rack.
Note that any connection that does not support SACK will be kicked
back to the "default" base FreeBSD stack (currently known as "default").
To build this into your kernel you will need to enable in your
kernel:
makeoptions WITH_EXTRA_TCP_STACKS=1
options TCPHPTS
Sponsored by: Netflix Inc.
Differential Revision: https://reviews.freebsd.org/D15525