An error message is written, the builtin is not executed, nonzero exit
status is returned but the shell does not abort.
This was already checked for special builtins and external commands, with
the same consequences except that the shell aborts for special builtins.
Obtained from: NetBSD
not just that it is greater than the minimal kernel virtual address, but also
that it is less than the maximal kernel virtual address. On n64 kernels, the
pcpup comes out of a direct-mapped address that, with an unsigned compare, is
rather greater than the minimal kernel virtual address.
o) Turn the panic if interrupts are disabled in cpu_idle into a KASSERT since on
other architectures it's behind INVARIANTS anyway.
o) Add a check that not all interrupts are masked, too.
o) Add cpu_idleclock() and cpu_activeclock() use to cpu_idle as is done on other
architectures.
Add and export constants of array sizes of jail parameters as compiled into
the kernel.
This is the least intrusive way to allow kvm to read the (sparse) arrays
independent of the options the kernel was compiled with.
Reviewed by: jhb (originally)
MFC after: 1 week
Sponsored by: The FreeBSD Foundation
Sponsored by: CK Software GmbH
After controller updates control word in a RX LE, driver converts
it to host byte order. The checksum value in the control word is
stored in big endian form by controller. r205091 didn't account for
the host byte order conversion such that the checksum value was
incorrectly interpreted on big endian architectures which in turn
made all TCP/UDP frames dropped. Make RX checksum offload work
on any architectures by swapping the checksum value.
Reported by: Sreekanth M. ( kanthms <> netlogicmicro dot com )
Tested by: Sreekanth M. ( kanthms <> netlogicmicro dot com )
Rather than duplicating the LLE_FREE_LOCKED() macro code in LLE_FREE(),
call it directly (like we do for the RT_* macros).
Sponsored by: ISPsystem [1]
Reviewed by: julian [1]
MFC After: 1 week
[1] Early 2010.
(also test for negative MTUs if checking it anyway).
An MTU of 0 is arguably a bug elsewhere, but this at least gives us some
more debugging hints.
Sponsored by: ISPsystem (Early 2010)
MFC after: 1 week
variable into two so that we can see on which one we are waiting.
This might also more properly propagate the update of the
flowclean_cycles flag and avoid "hangs" people were seeing.
Suggested by: rwatson [1]
Sponsored by: ISPsystem [1]
Reviewed by: julian [1]
Updated by: Mikolaj Golub (to.my.trociny gmail.com)
Tested by: Mikolaj Golub (to.my.trociny gmail.com)
MFC After: 1 week
[1] Early 2010, initial version.
When cleaning up a thread, reset its LDT to the default LDT.
Note: Casting the LDT pointer to an int and storing it in pc_currentldt is
wildly bogus, but is harmless since pc_currentldt is a write-only variable.
MFC after: 3 days
Use xen_update_descriptor to update the LDT rather than bcopy. Under Xen,
pages used for holding LDTs must be read-only, so we can't make the change
ourselves.
Ths obvious alternative of "remap the page read-write, make the change, then
map it read-only again" doesn't work since Xen won't allow an LDT page to be
remapped as R/W. An arguably better solution is used by NetBSD: They don't
modify LDTs in-place at all, but instead copy the entire LDT, modify the new
version, then atomically swap.
MFC after: 3 days
Synchronize reality with comment: The user_ldt_alloc function is supposed to
return with dt_lock held. Due to broken locking in i386/xen/pmap.c, we drop
dt_lock during the call to pmap_map_readonly and then pick it up again; this
can be removed once the Xen pmap locking is fixed.
MFC after: 3 days
Don't map physical to machine page numbers in pte_load_store, since it uses
PT_SET_VA (which takes a physical page number and converts it to a machine
page number).
MFC after: 3 days
Lock the vm page queue mutex around calls to pte_store. As with many other
uses of the vm page queue mutex in i386/xen/pmap.c, this is bogus and needs
to be replaced at some future date by a spin lock dedicated to protecting
the queue of pending xen page mapping hypervisor calls. (But for now, bogus
locking is better than a panic.)
MFC after: 3 days
supposed to be APs and the later 24 are pre-configured as STAs. A wrong
condition during initialization is responsible for not configuring the last
8 array members. This is results in being able to create more than 8,
possible uninitialized, AP-VAPs.
PR: kern/153549
Submitted by: Erik Fonnesbeck <efonnes at gmail.com>
MFC after: 2 weeks
The controller is commonly found on DM&P Vortex86 x86 SoC. The
driver supports all hardware features except flow control. The
flow control was intentionally disabled due to silicon bug.
DM&P Electronics, Inc. provided all necessary information including
sample board to write driver and answered many questions I had.
Many thanks for their support of FreeBSD.
H/W donated by: DM&P Electronics, Inc.
Change the criterion for builtins to be safe to execute in the same process
in optimized command substitution from a blacklist of only cd, . and eval to
a whitelist.
This avoids clobbering the main shell environment such as by $(exit 4) and
$(set -x).
The builtins jobid, jobs, times and trap can still show information not
available in a child process; this is deliberately permitted. (Changing
traps is not.)
For some builtins, whether they are safe depends on the arguments passed to
them. Some of these are always considered unsafe to keep things simple; this
only harms efficiency a little in the rare case they are used alone in a
command substitution.
modification of memory which was already free'd and eventually in:
wpi0: could not map mbuf (error 12)
wpi0: wpi_rx_intr: bus_dmamap_load failed, error 12
and an usuable device.
PR: kern/144898
MFC after: 3 days
It is implemented as a hard link to shutdown(8) and it is equivalent of:
# shutdown -p now
While I'm here put one line of usage into one line of C code so it is easier to
grep(1) and separate unrelated code with empty line.
MFC after: 2 weeks
to let the compiler optimize for the famility of UltraSPARC-III CPUs as the
default already was to optimize for UltraSPARC-I/II and generating generic
64-bit V9 is mainly for reference purposes. At least for SPARC64-V CPUs
code optimized for UltraSPARC-I/II still is the most performant one.
Thanks go to Michael Moll for testing SPARC64-V.
- Move a booke MACHINE_CPU bit into the right section.
another, deleting it. If the directory is removed, UFS always need to
remove the .. ref, even if the ultimate ref on the parent would not
change. The new directory must have a new journal entry for that ref.
Otherwise journal processing would not properly account for the
parent's reference since it will belong to a removed directory entry.
Change ufs_rename()'s dotdot rename section to always
setup_dotdot_link(). In the tip != NULL case SUJ needs the newref dependency
allocated via setup_dotdot_link().
Stop setting isrmdir to 2 for newdirrem() in softdep_setup_remove().
Remove the isdirrem > 1 checks from newdirrem().
Reported by: many
Submitted by: jeff
Tested by: pho
to the disk, recurse to handle indirect blocks of next level that are
hidden by the corresponding entry.
In collaboration with: pho
Reviewed by: jeff, mckusick
Tested by: mckusick, pho
information is set to FreeBSD. It had been falling through to the end
of linux_ioctl_sound() and returning ENOIOCTL. Noticed when running the
Linux ALSA amixer tool.
Add a LINUX_SOUND_MIXER_READ_CAPS ioctl which is used by the Skype
v2.1.0.81 binary.
Reviewed by: gavin
MFC after: 2 weeks
for xenpic_dynirq_template. This fixes a panic when a virtual disk is
removed, since that results in an interrupt channel being disabled and
NULL isn't very good function for disabling interrupts.
We should probably have a xenpic_pirq_disable_intr as well; I'm not adding
that here because (a) I'm not sure what uses pirqs so I don't have a test
case, and (b) the xenpic_pirq_enable_intr code is significantly more
complex than the xenpic_dynirq_enable_intr code, so I'm not sure what
should go into a xenpic_pirq_disable_intr routine.
PR: kern/153511
MFC after: 3 days
consumer of the flag, and it used the flag because OBJ_MIGHTBEDIRTY
was cleared early in vm_object_page_clean, before the cleaning pass
was done. This is no longer true after r216799.
Moreover, since OBJ_CLEANING is a flag, and not the counter, it could
be reset too prematurely when parallel vm_object_page_clean() are
performed.
Reviewed by: alc (as a part of the bigger patch)
MFC after: 1 month (after r216799 is merged)
These functions throw exceptions if they fail, possibly causing memory
leaks. The normal out-of-memory handling suffices. The INTOFF around almost
all of printf prevents memory leaks due to SIGINT.
instead skip over them. As long as a page is held, it can't be reclaimed by
contigmalloc(M_WAITOK). Moreover, a held page may be undergoing
modification, e.g., vmapbuf(), so even if the hold were released before the
completion of contigmalloc(), the page might have to be flushed again.
MFC after: 3 weeks
If SIGINT arrived at exactly the right moment (unlikely), an exception
handler in a no longer active stack frame would be called.
Because the old handler was not used in the normal path, clang thought it
was a dead value and if an exception happened it would longjmp() to garbage.
This caused builtins/fc1.0 to fail if histedit.c was compiled with clang.
MFC after: 1 week
- Problem1:
Hypothesis: thread1 is doing a callout_reset_on(), within his
callout handler, willing to implicitly or explicitly migrate the
callout. thread2 is draining the callout.
Thesys:
* thread1 calls callout_lock() and locks the old callout cpu
* thread1 performs the checks in the first path of the
callout_reset_on()
* thread1 hits this codepiece:
/*
* If the lock must migrate we have to check the state again as
* we can't hold both the new and old locks simultaneously.
*/
if (c->c_cpu != cpu) {
c->c_cpu = cpu;
CC_UNLOCK(cc);
goto retry;
}
which means it will drop the lock and 'retry'
* thread2 will callout_lock() and locks the new callout cpu.
thread1 spins on the new lock and will not keep going for the
moment.
* thread2 checks that the callout is not pending (as callout is
currently running) and that it is not on cc->cc_curr (because cc
now refers to the new callout and the callout is running on the
old callout cpu) thus it thinks it is done and returns.
* thread1 will now acquire the lock and then adds the callout
to the new callout cpu queue
That seems an obvious race as callout_stop() falsely reports
the callout stopped or worse, callout_drain() falsely returns
while the callout is still in use.
- Solution1:
Fixing this problem would require, in general, to lock both
callout cpus at once while switching the c_cpu field and avoid
cyclic deadlocks between callout cpus locks.
The concept of CPUBLOCK is then introduced (working more or less
like the blocked_lock for thread_lock() function) meaning:
"in callout_lock(), spin until the c->c_cpu is not different from
CPUBLOCK". That way the "original" callout cpu, referred to the
above mentioned code snippet, will remain blocked until the lock
handover is over critical path will remain covered.
- Problem2:
Having the callout currently executed on a specific callout cpu
and contemporary pending on another callout cpu (as it can happen
with current code) breaks, at least, the assumption callout_drain()
returns just once the callout cannot be referenced anymore.
- Solution2:
Callout migration is deferred if the current callout is already
under execution.
The best place to do that is in softclock() and new members are
added to the callout cpu structure in order to specify a pending
migration is requested. That is necessary because the callout
cannot be trusted (not freed) the 100% of times after the execution
of the callout handler.
CPUBLOCK will prevent, in the "deferred migration" case, that the
callout gets freed in this case, stopping any callout_stop() and
callout_drain() possible activity until the migration is
actually performed.
- Problem3:
There is a further race in callout_drain().
In order to avoid a race between sleepqueue lock and callout cpu
spinlock, in _callout_stop_safe(), the callout cpu lock is dropped,
the sleepqueue lock is acquired and a new callout cpu lookup is
performed. Note that the channel used for locking the sleepqueue is
obtained from the "current" callout cpu (&cc->cc_waiting).
If the callout migrated in the meanwhile, callout_drain() will end up
using the wrong wchan for the sleepqueue (the locked one will be the
older, while the new one will not really be locked) leading to a
lock leak and a race access to sleepqueue.
- Solution3:
It is enough to check if a migration happened between the operation
of acquiring the sleepqueue lock and the new callout cpu lock and
eventually unwind all those and try again.
This problems can lead to deathly races on moderate (4-ways) SMP
environment, leading to easy panic or deadlocks.
The 24-ways of the reporter, could easilly panic, with completely
normal workload, almost daily.
gianni@ kindly wrote the following prof-of-concept which can
panic a FreeBSD machine in less than one hour, in smaller SMP:
http://www.freebsd.org/~attilio/callout/test.c
Reported by: Nicholas Esborn <nick at desert dot net>, DesertNet
In collabouration with: gianni, pho, Nicholas Esborn
Reviewed by: jhb
MFC after: 1 week (*)
* Usually, I would aim for a larger MFC timeout, but I really want this
in before 8.2-RELEASE, thus re@ accepted a shorter timeout as a special
case for this patch
which takes an physical address instead of an virtual one, for loading TTEs
of the kernel TSB so we no longer need to lock the kernel TSB into the dTLB,
which only has a very limited number of lockable dTLB slots. The net result
is that we now basically can handle a kernel TSB of any size and no longer
need to limit the kernel address space based on the number of dTLB slots
available for locked entries. Consequently, other parts of the trap handlers
now also only access the the kernel TSB via its physical address in order
to avoid nested traps, as does the PMAP bootstrap code as we haven't taken
over the trap table at that point, yet. Apart from that the kernel TSB now
is accessed via a direct mapping when we are otherwise taking advantage of
ASI_ATOMIC_QUAD_LDD_PHYS so no further code changes are needed. Most of this
is implemented by extending the patching of the TSB addresses and mask as
well as the ASIs used to load it into the trap table so the runtime overhead
of this change is rather low. Currently the use of ASI_ATOMIC_QUAD_LDD_PHYS
is not yet enabled on SPARC64 CPUs due to lack of testing and due to the
fact it might require minor adjustments there.
Theoretically it should be possible to use the same approach also for the
user TSB, which already is not locked into the dTLB, avoiding nested traps.
However, for reasons I don't understand yet OpenSolaris only does that with
SPARC64 CPUs. On the other hand I think that also addressing the user TSB
physically and thus avoiding nested traps would get us closer to sharing
this code with sun4v, which only supports trap level 0 and 1, so eventually
we could have a single kernel which runs on both sun4u and sun4v (as does
Linux and OpenBSD).
Developed at and committed from: 27C3