The GCC4.3 branch contains some optimization fixes
that were not considered regressions and therefore
were never backported. We are bringing a couple of
them that are under GPLv2 since they were made
before the license switch upstream.
While here, add the GCC revision numbers in the
log.
Discussed with: jkim
MFC after: 1 week
no longer necessary for free_pv_entry() to be serialized by the pvh global
lock.
Retire pmap_insert_entry() and pmap_remove_entry(). Once upon a time,
these functions were called from multiple places within the pmap. Now,
each has only one caller.
done queue. Clearing it before caused extra SIM queueing in some cases.
It was invisible during normal operation, but during USB device unplug and
respective SIM destruction it could keep pointer on SIM without having
counted reference and as result crash the system by use afer free.
Reported by: hselasky
MFC after: 1 week
is performed before exact size of the buffer is calculated, but the
buffer cannot have size greater then the total space allocated for
extended attributes. The existing check is executing with precise
size, but it is too late, since buffer needs to be allocated in
advance.
Also, adapt to uio_resid being of ssize_t type. Use lblktosize instead of
multiplying by fs block size by hand as well.
Reported and tested by: pho
MFC after: 1 week
It seems that intended locking protocol for struct file f_offset field
was as follows: f_offset should always be changed under the vnode lock
(except fcntl(2) and lseek(2) did not followed the rules). Since
read(2) uses shared vnode lock, FOFFSET_LOCKED block is additionally
taken to serialize shared vnode lock owners.
This was broken first by enabling shared lock on writes, then by
fadvise changes, which moved f_offset assigned from under vnode lock,
and last by vn_io_fault() doing chunked i/o. More, due to uio_offset
not yet valid in vn_io_fault(), the range lock for reads was taken on
the wrong region.
Change the locking for f_offset to always use FOFFSET_LOCKED block,
which is placed before rangelocks in the lock order.
Extract foffset_lock() and foffset_unlock() functions which implements
FOFFSET_LOCKED lock, and consistently lock f_offset with it in the
vn_io_fault() both for reads and writes, even if MNTK_NO_IOPF flag is
not set for the vnode mount. Indicate that f_offset is already valid
for vn_read() and vn_write() calls from vn_io_fault() with FOF_OFFSET
flag, and assert that all callers of vn_read() and vn_write() follow
this protocol.
Extract get_advice() function to calculate the POSIX_FADV_XXX value
for the i/o region, and use it were appropriate.
Reviewed by: jhb
Tested by: pho
MFC after: 2 weeks
is not correct. The code works by accident because gzFile is
currently defined as void *, and internally it would be casted from
or to its real type.
A newer version of zlib will instead define it as a pointer to a
specific type pointer (namely, struct gzFile_s *). This therefore
would cause stricter checks and compiler would catch this type
mismatch.
This change does not cause any changes to the resulting binary,
as validated with md5(1).
MFC after: 3 days
directory entry then use the struct stat from that instead of doing
it again, and skip the rm_overwrite() call if fts_read() indicated
that the entry couldn't be a regular file.
Obtained from: OpenBSD
MFC after: 1 week
invalidated while open, cam_periph_hold() will return error and won't
get the reference. Following reference release will crash the system.
Sponsored by: iXsystems, Inc.
MFC after: 3 days
in vm_map_process_deferred() which is then iterated to release map entries.
This avoids having a nested vm map unlock operation called from the loop
body attempt to recuse into vm_map_process_deferred(). This can happen if
the vm_map_remove() triggers the OOM killer.
Reviewed by: alc, kib
MFC after: 1 week
the pass(4) and enc(4) drivers and devfs.
The pass(4) driver uses the destroy_dev_sched() routine to
schedule its device node for destruction in a separate thread
context. It does this because the passcleanup() routine can get
called indirectly from the passclose() routine, and that would
cause a deadlock if the close routine tried to destroy its own
device node.
In any case, once a particular passthrough driver number, e.g.
pass3, is destroyed, CAM considers that unit number (3 in this
case) available for reuse.
The problem is that devfs may not be done cleaning up the previous
instance of pass3, and will panic if isn't done cleaning up the
previous instance.
The solution is to get a callback from devfs when the device node
is removed, and make sure we hold a reference to the peripheral
until that happens.
Testing exposed some other cases where we have reference counting
issues, and those were also fixed in the pass(4) driver.
cam_periph.c: In camperiphfree(), reorder some of the operations.
The peripheral destructor needs to be called before
the peripheral is removed from the peripheral is
removed from the list. This is because once we
remove the peripheral from the list, and drop the
topology lock, the peripheral number may be reused.
But if the destructor hasn't been called yet, there
may still be resources hanging around (like devfs
nodes) that haven't been fully cleaned up.
cam_xpt.c: Add an argument to xpt_remove_periph() to indicate
whether the topology lock is already held.
scsi_enc.c: Acquire an extra reference to the peripheral during
registration, and release it once we get a callback
from devfs indicating that the device node is gone.
Call destroy_dev_sched_cb() in enc_oninvalidate()
instead of calling destroy_dev() in the cleanup
routine.
scsi_pass.c: Add reference counting to handle peripheral and
devfs object lifetime issues.
Add a reference to the peripheral and the devfs
node in the peripheral registration.
Don't attempt to add a physical path alias if the
peripheral has been marked invalid.
Release the devfs reference once the initial
physical path alias taskqueue run has completed.
Schedule devfs node destruction in the
passoninvalidate(), and release our peripheral
reference in a new routine, passdevgonecb() once
the devfs node is gone. This allows the peripheral
to fully go away, and the peripheral destructor,
passcleanup(), will get called.
MFC after: 3 days
Sponsored by: Spectra Logic
pmap_enter_quick(). These functions are no longer serialized by the pvh
global lock.
There is no need to release the PV list lock before calling free_pv_chunk()
in pmap_remove_pages().
that the file we have opened is the one we expected. Also open in
non-blocking mode to avoid a potential hang with FIFOs.
Obtained from: NetBSD via OpenBSD
ATA/SATA transport. The detection logic is automatic, so it should Just
Work. While here, also improve the progress meter that is displayed
during firmware download.
Submitted by: Alistair Crooks
Obtained from: Netflix, Inc.
MFC after: 3 days
should be killed or not.
This fixes killing pdfork(2)ed process on last close of the corresponding
process descriptor.
Reviewed by: rwatson
MFC after: 1 month
On success we have to drop one after procdesc_finit() and on failure
we have to close allocated slot with fdclose(), which also drops one
reference for us and drop the remaining reference with fdrop().
Without this change closing process descriptor didn't result in killing
pdfork(2)ed child.
Reviewed by: rwatson
MFC after: 1 month
First, extend the changes in r230782 to better handle the common case
of using NOREUSE with sequential reads. A NOREUSE file descriptor
will now track the last implicit DONTNEED request it made as a result
of a NOREUSE read. If a subsequent NOREUSE read is adjacent to the
previous range, it will apply the DONTNEED request to the entire range
of both the previous read and the current read. The effect is that
each read of a file accessed sequentially will apply the DONTNEED
request to the entire range that has been read. This allows NOREUSE
to properly handle misaligned reads by flushing each buffer to cache
once it has been completely read.
Second, apply the same changes made to read(2) by r230782 and this
change to writes. This provides much better performance in the
sequential write case as it allows writes to still be clustered. It
also provides much better performance for misaligned writes. It does
mean that NOREUSE will be generally ineffective for non-sequential
writes as the current implementation relies on a future NOREUSE
write's implicit DONTNEED request to flush the dirty buffer from the
current write.
MFC after: 2 weeks
Setting strict causes a validation of the requested
value vs the value currently running after a frequency
change is requested.
Change applicability to be single core not i386.
Thanks to mav@ for reviewing and commenting on my
lack of understanding.
MFC after: 2 weeks
for example)
get the username information from old_pw structures to still allow renaming of a
user.
Reported by: Claude Buisson <clbuisson@orange.fr>
Approved by: des (mentor)
MFC after: 3 weeks
- Stateful TCP offload drivers for Terminator 3 and 4 (T3 and T4) ASICs.
These are available as t3_tom and t4_tom modules that augment cxgb(4)
and cxgbe(4) respectively. The cxgb/cxgbe drivers continue to work as
usual with or without these extra features.
- iWARP driver for Terminator 3 ASIC (kernel verbs). T4 iWARP in the
works and will follow soon.
Build-tested with make universe.
30s overview
============
What interfaces support TCP offload? Look for TOE4 and/or TOE6 in the
capabilities of an interface:
# ifconfig -m | grep TOE
Enable/disable TCP offload on an interface (just like any other ifnet
capability):
# ifconfig cxgbe0 toe
# ifconfig cxgbe0 -toe
Which connections are offloaded? Look for toe4 and/or toe6 in the
output of netstat and sockstat:
# netstat -np tcp | grep toe
# sockstat -46c | grep toe
Reviewed by: bz, gnn
Sponsored by: Chelsio communications.
MFC after: ~3 months (after 9.1, and after ensuring MFC is feasible)
