unmapped I/O. That one exception is access to INQUIRY VPD request result.
Those requests are never unmapped now, but to be safe add respective check
there and allow unmapped I/O for the SIM by setting PIM_UNMAPPED flag.
This basically restores the spirit of r203535, which was partially reverted
in r205557, while we still map fixed amount to work around transient issues
we experienced with r203535.
Prodded by: avg
Tested by: avg
MFC after: 1 week
which requires OVREF to be set to get proper playback volume, but which has
all zeroes in HDA controller subdevice IDs on PCI.
MFC after: 1 month
Sponsored by:
data buffer for a ccb that is unmapped.
This case is currently not possible, since the SCI framework only
requests these pointers for doing SCSI/ATA translation of non-
READ/WRITE commands. The panic is more to protect against the
unlikely future scenario where additional commands could be unmapped.
Sponsored by: Intel
mechanism.
Now that all requests are timed, we are guaranteed to get a completion
notification, even if it is an abort status due to a timed out admin
command.
This has the effect of simplifying the controller and namespace setup
code, so that it reads straight through rather than broken up into
a bunch of different callback functions.
Sponsored by: Intel
Reviewed by: carl
start or reset. Also add a notifier for NVMe consumers for controller fail
conditions and plumb this notifier for nvd(4) to destroy the associated
GEOM disks when a failure occurs.
This requires a bit of work to cover the races when a consumer is sending
I/O requests to a controller that is transitioning to the failed state. To
help cover this condition, add a task to defer completion of I/Os submitted
to a failed controller, so that the consumer will still always receive its
completions in a different context than the submission.
Sponsored by: Intel
Reviewed by: carl
This is just as effective, and removes the need for a bunch of admin commands
to a controller that's going to be disabled shortly anyways.
Sponsored by: Intel
Reviewed by: carl
start process.
The spec indicates the OS driver should use Set Features (Software
Progress Marker) to set the pre-boot software load count to 0
after the OS driver has successfully been initialized. This allows
pre-boot software to determine if there have been any issues with the
OS loading.
Sponsored by: Intel
Reviewed by: carl
This flag was originally added to communicate to the sysctl code
which oids should be built, but there are easier ways to do this. This
needs to be cleaned up prior to adding new controller states - for example,
controller failure.
Sponsored by: Intel
Reviewed by: carl
The controller's IDENTIFY data contains MDTS (Max Data Transfer Size) to
allow the controller to specify the maximum I/O data transfer size. nvme(4)
already provides a default maximum, but make sure it does not exceed what
MDTS reports.
Sponsored by: Intel
Reviewed by: carl
that if a specific I/O repeatedly times out, we don't retry it indefinitely.
The default number of retries will be 4, but is adjusted using hw.nvme.retry_count.
Sponsored by: Intel
Reviewed by: carl
specified log page.
This satisfies the spec condition that future async events of the same type
will not be sent until the associated log page is fetched.
Sponsored by: Intel
Reviewed by: carl
NVMe error log entries include status, so breaking this out into
its own data structure allows it to be included in both the
nvme_completion data structure as well as error log entry data
structures.
While here, expose nvme_completion_is_error(), and change all of
the places that were explicitly looking at sc/sct bits to use this
macro instead.
Sponsored by: Intel
Reviewed by: carl
This protects against cases where a controller crashes with multiple
I/O outstanding, each timing out and requesting controller resets
simultaneously.
While here, remove a debugging printf from a previous commit, and add
more logging around I/O that need to be resubmitted after a controller
reset.
Sponsored by: Intel
Reviewed by: carl
While aborts are typically cleaner than a full controller reset, many times
an I/O timeout indicates other controller-level issues where aborts may not
work. NVMe drivers for other operating systems are also defaulting to
controller reset rather than aborts for timed out I/O.
Sponsored by: Intel
Reviewed by: carl
(Yes, the previous code temporarily broke EDMA TX. I'm sorry; I should've
actually setup ATH_BUF_FIFOEND on frames so txq->axq_fifo_depth was
cleared!)
This code implements a whole bunch of sorely needed EDMA TX improvements
along with CABQ TX support.
The specifics:
* When filling/refilling the FIFO, use the new TXQ staging queue
for FIFO frames
* Tag frames with ATH_BUF_FIFOPTR and ATH_BUF_FIFOEND correctly.
For now the non-CABQ transmit path pushes one frame into the TXQ
staging queue without setting up the intermediary link pointers
to chain them together, so draining frames from the txq staging
queue to the FIFO queue occurs AMPDU / MPDU at a time.
* In the CABQ case, manually tag the list with ATH_BUF_FIFOPTR and
ATH_BUF_FIFOEND so a chain of frames is pushed into the FIFO
at once.
* Now that frames are in a FIFO pending queue, we can top up the
FIFO after completing a single frame. This means we can keep
it filled rather than waiting for it drain and _then_ adding
more frames.
* The EDMA restart routine now walks the FIFO queue in the TXQ
rather than the pending queue and re-initialises the FIFO with
that.
* When restarting EDMA, we may have partially completed sending
a list. So stamp the first frame that we see in a list with
ATH_BUF_FIFOPTR and push _that_ into the hardware.
* When completing frames, only check those on the FIFO queue.
We should never ever queue frames from the pending queue
direct to the hardware, so there's no point in checking.
* Until I figure out what's going on, make sure if the TXSTATUS
for an empty queue pops up, complain loudly and continue.
This will stop the panics that people are seeing. I'll add
some code later which will assist in ensuring I'm populating
each descriptor with the correct queue ID.
* When considering whether to queue frames to the hardware queue
directly or software queue frames, make sure the depth of
the FIFO is taken into account now.
* When completing frames, tag them with ATH_BUF_BUSY if they're
not the final frame in a FIFO list. The same holding descriptor
behaviour is required when handling descriptors linked together
with a link pointer as the hardware will re-read the previous
descriptor to refresh the link pointer before contiuning.
* .. and if we complete the FIFO list (ie, the buffer has
ATH_BUF_FIFOEND set), then we don't need the holding buffer
any longer. Thus, free it.
Tested:
* AR9380/AR9580, STA and hostap
* AR9280, STA/hostap
TODO:
* I don't yet trust that the EDMA restart routine is totally correct
in all circumstances. I'll continue to thrash this out under heavy
multiple-TXQ traffic load and fix whatever pops up.
On any I/O timeout, check for csts.cfs==1. If set, the controller
is reporting fatal status and we reset the controller immediately,
rather than trying to abort the timed out command.
This changeset also includes deferring the controller start portion
of the reset to a separate task. This ensures we are always performing
a controller start operation from a consistent context.
Sponsored by: Intel
Reviewed by: carl
invoke it from nvmecontrol(8).
Controller reset will be performed in cases where I/O are repeatedly
timing out, the controller reports an unrecoverable condition, or
when explicitly requested via IOCTL or an nvme consumer. Since the
controller may be in such a state where it cannot even process queue
deletion requests, we will perform a controller reset without trying
to clean up anything on the controller first.
Sponsored by: Intel
Reviewed by: carl
Each set of frames pushed into a FIFO is represented by a list of
ath_bufs - the first ath_buf in the FIFO list is marked with
ATH_BUF_FIFOPTR; the last ath_buf in the FIFO list is marked with
ATH_BUF_FIFOEND.
Multiple lists of frames are just glued together in the TAILQ as per
normal - except that at the end of a FIFO list, the descriptor link
pointer will be NULL and it'll be tagged with ATH_BUF_FIFOEND.
For non-EDMA chipsets this is a no-op - the ath_txq frame list (axq_q)
stays the same and is treated the same.
For EDMA chipsets the frames are pushed into axq_q and then when
the FIFO is to be (re) filled, frames will be moved onto the FIFO
queue and then pushed into the FIFO.
So:
* Add a new queue in each hardware TXQ (ath_txq) for staging FIFO frame
lists. It's a TAILQ (like the normal hardware frame queue) rather than
the ath9k list-of-lists to represent FIFO entries.
* Add new ath_buf flags - ATH_TX_FIFOPTR and ATH_TX_FIFOEND.
* When allocating ath_buf entries, clear out the flag value before
returning it or it'll end up having stale flags.
* When cloning ath_buf entries, only clone ATH_BUF_MGMT. Don't clone
the FIFO related flags.
* Extend ath_tx_draintxq() to first drain the FIFO staging queue, _then_
drain the normal hardware queue.
Tested:
* AR9280, hostap
* AR9280, STA
* AR9380/AR9580 - hostap
TODO:
* Test on other chipsets, just to be thorough.
Also add logic to clean up all outstanding asynchronous event requests
when resetting or shutting down the controller, since these requests
will not be explicitly completed by the controller itself.
Sponsored by: Intel
function.
This allows for completions outside the normal completion path, for example
when an ABORT command fails due to the controller reporting the targeted
command does not exist. This is mainly for protection against a faulty
controller, but we need to clean up our internal request nonetheless.
Sponsored by: Intel
the submit action assuming the qpair lock has already been acquired.
Also change nvme_qpair_submit_request to just lock/unlock the mutex
around a call to this new function.
This fixes a recursive mutex acquisition in the retry path.
Sponsored by: Intel
