Trying to up the reference from the load loop risks missing dependencies
that have not been loaded yet.
MFC afer: 1 week
Reported by: nox
Reviewd by: kib
reason for generated trap. The dump of basic signal information and 8
bytes of the faulting instruction are printed on the controlling
terminal of the process, if the machdep.uprintf_signal syscal is
enabled.
The print is the only practical way to debug traps from a.out
processes I am aware of. Because I have to reimplement it each time I
debug an issue with a.out support on amd64, commit the hack to main
tree.
MFC after: 1 week
in long mode which transfers control to 32bit code segment. Unbreak
the lcall $7,$0 implementation on amd64 by putting the 64bit user code
segment' selector into call gate, and execute the 64bit trampoline
which converts the return frame into 32bit format and switches back to
32bit mode for executing int $0x80 trampoline.
Note that all jumps over the hoops are performed in the user mode.
MFC after: 1 week
PROT_EXEC if prot is non-zero, process is 32bit and
kern.elf32.i386_read_exec syscal is enabled. This workaround is needed
for old i386 a.out binaries, where dynamic linker did not specified
PROT_EXEC for mapping of the text.
The kern.elf32.i386_read_exec MIB name looks weird for a.out binaries,
but I reused the existing knob which already has the needed semantic.
MFC after: 1 week
mappings for a.out binaries. Apparently, a.out ld.so from FreeBSD
1.1.5.1 can issue such requests.
Reported and tested by: Dan Plassche <dplassche@gmail.com>
MFC after: 1 week
network file systems (not only NFS proper). Short reads cause pages
other then the requested one, which were not filled by read response,
to stay invalid.
Change the vm_page_readahead_finish() interface to not take the error
code, but instead to make a decision to free or to (de)activate the
page only by its validity. As result, not requested invalid pages are
freed even if the read RPC indicated success.
Noted and reviewed by: alc
MFC after: 1 week
- Add per-controller configuration (sx) and I/O (mutex) locks. The
configuration lock protects the relationship of volumes and drives
while the I/O lock protects access to the controller's registers and
the main I/O path.
- Remove some checks for M_WAITOK malloc()'s failing.
- Remove the explicit bus space tag/handle from the softc and use
bus_*() rather than bus_space_*().
- Reuse the existing new-bus sysctl context instead of creating a
new one.
- Remove compat shims for FreeBSD 4.x.
- Use pci_enable_busmaster() rather than doing it by hand, and rely
on bus_alloc_resource() to enable PCI I/O decoding.
Tested by: Mike Tancsa mike sentex net
Reviewed by: scottl (partially)
MFC after: 1 month
in sys/boot/i386/libi386/biosdisk.c. Otherwise, when DISK_DEBUG is
enabled, the DEBUG() macros will clobber those fields, and cause the
probing to always fail mysteriously when debugging is enabled.
It is not listed in the boot sequence in the MP specification (1.4),
and it is explicitly ignored on modern CPUs. It was only ever required
when bootstrapping systems with external APICs (that is, SMP machines
with 486s), which FreeBSD has never supported (and never will).
While here, tidy some comments and remove some banal ones.
advantages. First, PV entries are roughly half the size. Second, this
allocator doesn't access the paging queues, and thus it will allow for the
removal of the page queues lock from this pmap.
Fix a rather serious bug in pmap_remove_write(). After removing write
access from the specified page's first mapping, pmap_remove_write() then
used the wrong "next" pointer. Consequently, the page's second, third,
etc. mappings were not write protected.
Tested by: jchandra
matches the algorithm in the MP specification (1.4). Previously we
were sending out the deassert INIT IPI immediately after the initial
INIT IPI was sent.
When we open the disk, check the type of partition table, that has
been detected. If this is BSD label, then we assume this is DD mode.
Reported by: dim@
in SUPER-speed mode, USB 3.0.
This feature has not been tested yet, due to lack of hardware.
This feature is useful when implementing protocols like UASP,
USB attached SCSI which promises higher USB mass storage throughput.
This patch also implements support for hardware processing of endpoints
for increased performance. The switching to hardware processing
of an endpoint is done via a callback to the USB controller driver. The
stream feature is implemented like a variant of a hardware USB protocol.
USB controller drivers implementing device mode needs to be updated to
implement the new "xfer_stall" USB controller method and remove the
"xfer" argument from the "set_stall" method.
The API's toward existing USB drivers are preserved. To setup a USB transfer
in stream mode, set the "stream_id" field of the USB config structure to
the desired value.
The maximum number of BULK streams is currently hardcoded and limited to 8
via a define in usb_freebsd.h.
All USB drivers should be re-compiled after this change.
LibUSB will be updated next week to support streams mode. A new IOCTL to
setup BULK streams as already been implemented. The ugen device nodes
currently only supports stream ID zero.
The FreeBSD version has been bumped.
MFC after: 2 weeks
of this hardware still running (close to twenty years now).
2. Quiesece and use ENC_VLOG instead of ENC_LOG for most
complaints. That is, they're visible with bootverbose, but
otherwise quiesced and not repeatedly spamming messages
with constant reminders that hardware in this space is
rarely fully compliant.
MFC after: 1 month
necessary to "do" EDMA.
It was just using the TX completion status for logging information about
the descriptor completion. Since with EDMA we don't know this without
checking the TX completion FIFO, we can't provide this information.
So don't.
Now that I understand what's going on with this, I've realised that
it's going to be quite difficult to implement a processq method in
the EDMA case. Because there's a separate TX status FIFO, I can't
just run processq() on each EDMA TXQ to see what's finished.
i have to actually run the TX status queue and handle individual
TXQs.
So:
* unmethodize ath_tx_processq();
* leave ath_tx_draintxq() as a method, as it only uses the completion status
for debugging rather than actively completing the frames (ie, all frames
here are failed);
* Methodize ath_draintxq().
The EDMA ath_draintxq() will have to take care of running the TX
completion FIFO before (potentially) freeing frames in the queue.
The only two places where ath_tx_draintxq() (on a single TXQ) are used:
* ath_draintxq(); and
* the CABQ handling in the beacon setup code - it drains the CABQ before
populating the CABQ with frames for a new beacon (when doing multi-VAP
operation.)
So it's quite possible that once I methodize the CABQ and beacon handling,
I can just drop ath_tx_draintxq() in its entirety.
Finally, it's also quite possible that I can remove ath_tx_draintxq()
in the future and just "teach" it to not check the status when doing
EDMA.
EDMA HAL hardware.
* The EDMA HAL code assumes the nexttbtt and intval values are in TU/8
units, rather than TU. For now, just "hack" around that here, at least
until I code up something to translate it in the HAL.
* Setup some different TXQ flags for EDMA hardware.
* The EDMA HAL doesn't support setting the first rate series via
ath_hal_setuptxdesc() - instead, a call to ath_hal_set11nratescenario()
is always required. So for now, just do an 11n rate series setup
for EDMA beacon frames.
This allows my AR9380 to successfully transmit beacon frames.
However, CABQ TX and all normal data frame TX and TX completion is
still not functional and will require some more significant code churn
to make work.
I was having TX hang issues, which I root caused to having the
legacy ath_hal_setupxtxdesc() called, rather than the 11n rate scenario
setup code. This meant that rate control information wasn't being
put into frames, causing the MAC to stall/hang.
* Add ATH_TXQ_FIRST() for easy tasting of what's on the list;
* Add an "axq_fifo_depth" for easy tracking of how deep the current
FIFO is;
* Flesh out the handoff (mcast, hw) functions;
* Begin fleshing out a TX ISR proc, which tastes the TX status FIFO.
The legacy hardware stuffs the TX completion at the end of the final frame
descriptor (or final sub-frame when doing aggregate.) So it's feasible
to do a per-TXQ drain and process, as the needed info is right there.
For EDMA hardware, there's a separate TX completion FIFO. So the TX
process routine needs to read the single FIFO and then process the
frames in each hardware queue.
This makes it difficult to do a per-queue process, as you'll end up with
frames in the TX completion FIFO for a different TXQ to the one you've
passed to ath_tx_draintxq() or ath_tx_processq().
Testing:
I've tested the TX queue and TX completion code in hostap mode on an
AR9380. Beacon frames successfully transmit and the completion routine
is called. Occasional data frames end up in TXQ 1 and are also
successfully completed.
However, this requires some changes to the beacon code path as:
* The AR9380 beacon configuration API is now in TU/8, rather than
TU;
* The AR9380 TX API requires the rate control is setup using a call
to setup11nratescenario, rather than having the try0 series setup
(rate/tries for the first series); so the beacon won't go out.
I'll follow this up with commits to the beacon code.
8 or more cores to improve utilization. None of my tests on 2xXeon (2x6x2)
system shown any slowdown from mentioned "excess thrashing". Same time in
pbzip2 test with number of threads more then number of CPUs I see up to 10%
speedup with SMT disabled and up 5% with SMT enabled. Thinking about
trashing I was trying to limit that stealing within same last level cache,
but got only worse results. Present code any way prefers to steal threads
from topologically closer cores.
Sponsored by: iXsystems, Inc.
On Windows, AUX is the auxiliary device, usually pointing to COM1.
Therefore it is forbidden to create a file named aux.c. To make it a bit
easier for Windows users to check out our source code, rename this file
to auxv.c.
MFC after: 1 month
Discussed with: kib
Suggested by: Eric van Gyzen <eric vangyzen net>
they need to refer to static constants, which C99 does not allow for
extern inline functions.
While here, change a comment in e_rem_pio2f.c to mention the correct
number of bits.
Reviewed by: bde
MFC after: 1 week