Commit Graph

40 Commits

Author SHA1 Message Date
Adrian Chadd
f5c30c4e8d Bring over some initial power save management support, reset path
fixes and beacon programming / debugging into the ath(4) driver.

The basic power save tracking:

* Add some new code to track the current desired powersave state; and
* Add some reference count tracking so we know when the NIC is awake; then
* Add code in all the points where we're about to touch the hardware and
  push it to force-wake.

Then, how things are moved into power save:

* Only move into network-sleep during a RUN->SLEEP transition;
* Force wake the hardware up everywhere that we're about to touch
  the hardware.

The net80211 stack takes care of doing RUN<->SLEEP<->(other) state
transitions so we don't have to do it in the driver.

Next, when to wake things up:

* In short - everywhere we touch the hardware.
* The hardware will take care of staying awake if things are queued
  in the transmit queue(s); it'll then transit down to sleep if
  there's nothing left.  This way we don't have to track the
  software / hardware transmit queue(s) and keep the hardware
  awake for those.

Then, some transmit path fixes that aren't related but useful:

* Force EAPOL frames to go out at the lowest rate.  This improves
  reliability during the encryption handshake after 802.11
  negotiation.

Next, some reset path fixes!

* Fix the overlap between reset and transmit pause so we don't
  transmit frames during a reset.
* Some noisy environments will end up taking a lot longer to reset
  than normal, so extend the reset period and drop the raise the
  reset interval to be more realistic and give the hardware some
  time to finish calibration.
* Skip calibration during the reset path.  Tsk!

Then, beacon fixes in station mode!

* Add a _lot_ more debugging in the station beacon reset path.
  This is all quite fluid right now.
* Modify the STA beacon programming code to try and take
  the TU gap between desired TSF and the target TU into
  account.  (Lifted from QCA.)

Tested:

* AR5210
* AR5211
* AR5212
* AR5413
* AR5416
* AR9280
* AR9285

TODO:

* More AP, IBSS, mesh, TDMA testing
* Thorough AR9380 and later testing!
* AR9160 and AR9287 testing

Obtained from:	QCA
2014-04-30 02:19:41 +00:00
Gleb Smirnoff
76039bc84f The r48589 promised to remove implicit inclusion of if_var.h soon. Prepare
to this event, adding if_var.h to files that do need it. Also, include
all includes that now are included due to implicit pollution via if_var.h

Sponsored by:	Netflix
Sponsored by:	Nginx, Inc.
2013-10-26 17:58:36 +00:00
Adrian Chadd
216ca2346f Migrate the LNA mixing diversity machinery from the AR9285 HAL to the driver.
The AR9485 chip and AR933x SoC both implement LNA diversity.
There are a few extra things that need to happen before this can be
flipped on for those chips (mostly to do with setting up the different
bias values and LNA1/LNA2 RSSI differences) but the first stage is
putting this code into the driver layer so it can be reused.

This has the added benefit of making it easier to expose configuration
options and diagnostic information via the ioctl API.  That's not yet
being done but it sure would be nice to do so.

Tested:

* AR9285, with LNA diversity enabled
* AR9285, with LNA diversity disabled in EEPROM
2013-06-12 14:52:57 +00:00
Adrian Chadd
3df7a8ab08 Implement a bit of a hack to store the AR9285/AR9485 RX LNA configuration in
the RX antenna field.

The AR9285/AR9485 use an LNA mixer to determine how to combine the signals
from the two antennas.  This is encoded in the RSSI fields (ctl/ext) for
chain 2.  So, let's use that here.

This maps RX antennas 0->3 to the RX mixer configuration used to
receive a frame.  There's more that can be done but this is good enough
to diagnose if the hardware is doing "odd" things like trying to
receive frames on LNA2 (ie, antenna 2 or "alt" antenna) when there's
only one antenna connected.

Tested:

* AR9285, STA mode
2013-06-05 00:45:19 +00:00
Adrian Chadd
2c47932c88 Implement STBC receive frame statistics.
The AR9280 and later can receive STBC.  This adds some statistics
tracking to count these frames.

A patch to athstats will be forthcoming.
2013-05-08 01:11:25 +00:00
Adrian Chadd
8cc724d9be Fix the busdma logic to work with EDMA chipsets when using bounce
buffers (ie, >4GB on amd64.)

The underlying problem was that PREREAD doesn't sync the mbuf
with the DMA memory (ie, bounce buffer), so the bounce buffer may
have had stale information.  Thus it was always considering the
buffer completed and things just went off the rails.

This change does the following:

* Make ath_rx_pkt() always consume the mbuf somehow; it no longer
  passes error mbufs (eg CRC errors, crypt errors, etc) back up
  to the RX path to recycle.  This means that a new mbuf is always
  allocated each time, but it's cleaner.

* Push the RX buffer map/unmap to occur in the RX path, not
  ath_rx_pkt().  Thus, ath_rx_pkt() now assumes (a) it has to consume
  the mbuf somehow, and (b) that it's already been unmapped and
  synced.

* For the legacy path, the descriptor isn't mapped, it comes out of
  coherent, DMA memory anyway.  So leave it there.

* For the EDMA path, the RX descriptor has to be cleared before
  its passed to the hardware, so that when we check with
  a POSTREAD sync, we actually get either a blank (not finished)
  or a filled out descriptor (finished.)  Otherwise we get stale
  data in the DMA memory.

* .. so, for EDMA RX path, we need PREREAD|PREWRITE to sync the
  data -> DMA memory, then POSTREAD|POSTWRITE to finish syncing
  the DMA memory -> data.

* Whilst we're here, make sure that in EDMA buffer setup (ie,
  bzero'ing the descriptor part) is done before the mbuf is
  map/synched.

NOTE: there's been a lot of commits besides this one with regards to
tidying up the busdma handling in ath(4).  Please check the recent
commit history.

Discussed with and thanks to:	scottl

Tested:

* AR5416 (non-EDMA) on i386, with the DMA tag for the driver
  set to 2^^30, not 2^^32, STA

* AR9580 (EDMA) on i386, as above, STA

* User - tested AR9380 on amd64 with 32GB RAM.

PR:		kern/177530
2013-04-04 08:21:56 +00:00
Adrian Chadd
18303fd833 Add a missing unmap; if we're freeing this mbuf then we must
really both sync/unmap the dmamap before freeing it.
2013-04-02 06:21:37 +00:00
Adrian Chadd
f0db652cf6 Break out the RX completion path into "FIFO check / refill" and
"complete RX frames."

The 128 entry RX FIFO is really easy to fill up and miss refilling
when it's done in the ath taskq - as that gets blocked up doing
RX completion, TX completion and other random things.

So the 128 entry RX FIFO now gets emptied and refilled in the ath_intr()
task (and it grabs / releases locks, so now ath_intr() can't just be
a FAST handler yet!) but the locks aren't held for very long. The
completion part is done in the ath taskqueue context.

Details:

* Create a new completed frame list - sc->sc_rx_rxlist;
* Split the EDMA RX process queue into two halves - one that
  processes the RX FIFO and refills it with new frames; another
  that completes the completed frame list;
* When tearing down the driver, flush whatever is in the deferred
  queue as well as what's in the FIFO;
* Create two new RX methods - one that processes all RX queues,
  one that processes the given RX queue.  When MSI is implemented,
  we get told which RX queue the interrupt came in on so we can
  specifically schedule that.  (And I can do that with the non-MSI
  path too; I'll figure that out later.)
* Convert the legacy code over to use these new RX methods;
* Replace all the instances of the RX taskqueue enqueue with a call
  to a relevant RX method to enqueue one or all RX queues.

Tested:

* AR9380, STA
* AR9580, STA
* AR5413, STA
2013-03-19 19:32:28 +00:00
Adrian Chadd
0e168bb8e3 Add a few new fields to the RX vendor radiotap header:
* a flags field that lets me know what's going on;
* the hardware ratecode, unmolested by conversion to a bitrate;
* the HAL rs_flags field, useful for debugging;
* specifically mark aggregate sub-frames.

This stuff sorely needs tidying up - it's missing some important
stuff (eg numdelims) and it would be nice to put the flags at the
beginning rather than at the end.

Tested:

* AR9380, STA mode, 2x2 HT40, monitoring RSSI and EVM values
2013-03-11 06:54:58 +00:00
Adrian Chadd
1896b0880a Add three-stream EVM values. 2013-03-11 04:19:10 +00:00
Adrian Chadd
1844ff169f * Reduce the PCU lock overhead a little by only re-acquiring it if we
actually do have to reinitialise the RX side of things after an RX
  descriptor EOL error.

* Revert a change of mine from quite a while ago - don't shortcut the
  RX initialisation path.  There's a RX FIFO bug in the earlier chips
  (I'm not sure when it was fixed in this series, but it's fixed
  with the AR9380 and later) which causes the same RX descriptor to
  be written to over and over.  This causes the descriptor to be
  marked as "done", and this ends up causing the whole RX path to
  go very strange.  This should fixed the "kickpcu; handled X packets"
  message spam where "X" is consistently small.
2013-02-16 19:11:57 +00:00
Adrian Chadd
b8f355bf50 Work around some rather unfortunate race conditions inside net80211.
Right now, ic_curchan seems to be updated rather quickly (ie, during
the ioctl) and before the driver gets notified of what's going on.
So what I was seeing was:

* NIC was in channel X;
* It generates PHY errors for channel X;
* an ioctl comes along from userland and changes things to channel Y;
* .. this updates ic_curchan, but hasn't yet reset the hardware;
* in parallel, RX is occuring and it looks at ic_curchan;
* .. which is channel Y, so events get stamped with that now.

Sigh.
2013-01-31 00:14:25 +00:00
Adrian Chadd
233af52df2 If we're doing a kickpcu, make sure we flush the whole RX list rather than
stopping after 128 frames.

Whilst here, add in some code that lets me optionally flip back to the
original behaviour of calling ath_startrecv().
2013-01-13 22:41:58 +00:00
Adrian Chadd
f29c6bdec5 If spectral scan is enabled, ensure radar report PHY errors are also
enabled.
2013-01-08 22:12:45 +00:00
Adrian Chadd
55caa1df93 For PHY error frames, populate the configured channel flags rather than
based on the received frame.

PHY errors don't have the relevant HT or 40MHz MCS flag set.
2013-01-04 06:28:34 +00:00
Gleb Smirnoff
c6499eccad Mechanically substitute flags from historic mbuf allocator with
malloc(9) flags in sys/dev.
2012-12-04 09:32:43 +00:00
Adrian Chadd
bb327d284b ALQ logging enhancements:
* upon setup, tell the alq code what the chip information is.
* add TX/RX path logging for legacy chips.
* populate the tx/rx descriptor length fields with a best-estimate.
  It's overly big (96 bytes when AH_SUPPORT_AR5416 is enabled)
  but it'll do for now.

Whilst I'm here, add CURVNET_RESTORE() here during probe/attach as a
partial solution to fixing crashes during attach when the attach fails.
There are other attach failures that I have to deal with; those'll come
later.
2012-11-16 19:57:16 +00:00
Adrian Chadd
b69b0dcc24 Add some hooks into the driver to attach, detach and record EDMA descriptor
events.

This is primarily for the TX EDMA and TX EDMA completion. I haven't yet
tied it into the EDMA RX path or the legacy TX/RX path.

Things that I don't quite like:

* Make the pointer type 'void' in ath_softc and have if_ath_alq*()
  return a malloc'ed buffer.  That would remove the need to include
  if_ath_alq.h in if_athvar.h.
* The sysctl setup needs to be cleaned up.
2012-11-08 18:11:31 +00:00
Adrian Chadd
516f67965a Break the RX processing up into smaller chunks of 128 frames each.
Right now processing a full 512 frame queue takes quite a while (measured
on the order of milliseconds.) Because of this, the TX processing ends up
sometimes preempting the taskqueue:

* userland sends a frame
* it goes in through net80211 and out to ath_start()
* ath_start() will end up either direct dispatching or software queuing a
  frame.

If TX had to wait for RX to finish, it would add quite a few ms of
additional latency to the packet transmission.  This in the past has
caused issues with TCP throughput.

Now, as part of my attempt to bring sanity to the TX/RX paths, the first
step is to make the RX processing happen in smaller 'parts'. That way
when TX is pushed into the ath taskqueue, there won't be so much latency
in the way of things.

The bigger scale change (which will come much later) is to actually
process the frames in the ath_intr taskqueue but process _frames_ in
the ath driver taskqueue.  That would reduce the latency between
processing and requeuing new descriptors. But that'll come later.

The actual work:

* Add ATH_RX_MAX at 128 (static for now);
* break out of the processing loop if npkts reaches ATH_RX_MAX;
* if we processed ATH_RX_MAX or more frames during the processing loop,
  immediately reschedule another RX taskqueue run.  This will handle
  the further frames in the taskqueue.

This should have very minimal impact on the general throughput case,
unless the scheduler is being very very strange or the ath taskqueue
ends up spending a lot of time on non-RX operations (such as TX
completion.)
2012-10-14 20:31:38 +00:00
Adrian Chadd
0368251456 Migrate the ath(4) KTR logging to use an ATH_KTR() macro.
This should eventually be unified with ATH_DEBUG() so I can get both
from one macro; that may take some time.

Add some new probes for TX and TX completion.
2012-09-24 20:35:56 +00:00
Adrian Chadd
b5c5592d2b Remove extra debugging - there's no longer any need. 2012-08-29 00:53:41 +00:00
Adrian Chadd
a176030864 Remove unnecessary debugging printf()s. 2012-08-06 22:54:10 +00:00
Adrian Chadd
1006fc0c3b Modify ath_descdma_setup() to take a descriptor size parameter.
The AR9300 and later descriptors are 128 bytes, however I'd like to make
sure that isn't used for earlier chips.

* Populate the TX descriptor length field in the softc with
  sizeof(ath_desc)

* Use this field when allocating the TX descriptors

* Pre-AR93xx TX/RX descriptors will use the ath_desc size; newer ones will
  query the HAL for these sizes.
2012-07-23 23:40:13 +00:00
Adrian Chadd
c7f5bb7a4f Handle RX Keymiss events.
The AR9003 series NICs implement a separate RX error to signal that a
Keycache miss occured.  The earlier NICs would not set the key index
valid bit.

I'll dig into the difference between "no key index bit set" and "keycache
miss".
2012-07-15 20:51:41 +00:00
Adrian Chadd
2633dc9382 Migrate the ATH_KTR_* fields out to if_ath_debug.h . 2012-07-10 06:11:39 +00:00
Adrian Chadd
d434a377d9 Convert sc_rxpending to a per-EDMA queue, and use that for the legacy code.
Prepare ath_rx_pkt() to handle multiple RX queues, and default the legacy
RX queue to use the HP queue.
2012-07-10 00:02:19 +00:00
Adrian Chadd
3d184db2f8 Further preparations for the RX EDMA support.
Break out the DMA descriptor setup/teardown code into a method.
The EDMA RX code doesn't allocate descriptors, just ath_buf entries.
2012-07-09 08:37:59 +00:00
Adrian Chadd
d60a0680ba Extend the RX HAL API to include the RX queue identifier.
The AR93xx and later chips support two RX FIFO queues - a high and low
priority queue.

For legacy chips, just assume the queues are high priority.

This is inspired by the reference driver but is a reimplementation of
the API and code.
2012-07-09 07:19:11 +00:00
Adrian Chadd
f8cc9b09b0 Begin abstracting out the RX path in preparation for RX EDMA support.
The RX EDMA support requires a modified approach to the RX descriptor
handling.

Specifically:

* There's now two RX queues - high and low priority;
* The RX queues are implemented as FIFOs; they're now an array of pointers
  to buffers;
* .. and the RX buffer and descriptor are in the same "buffer", rather than
  being separate.

So to that end, this commit abstracts out most of the RX related functions
from the bulk of the driver.  Notably, the RX DMA/buffer allocation isn't
updated, primarily because I haven't yet fleshed out what it should look
like.

Whilst I'm here, create a set of matching but mostly unimplemented EDMA
stubs.

Tested:

  * AR9280, station mode

TODO:

  * Thorough AP and other mode testing for non-EDMA chips;
  * Figure out how to allocate RX buffers suitable for RX EDMA, including
    correctly setting the mbuf length to compensate for the RX descriptor
    and completion status area.
2012-07-03 06:59:12 +00:00
Adrian Chadd
d77363ad5b Change the ath_dfs_process_phy_err() method to take an mbuf rather than
a buffer pointer.

For large radar pulses, the AR9130 and later will return a series of
FFT results for software processing.  These can overflow a single 2KB
buffer on longer pulses.  This would result in undefined buffer behaviour.
2012-06-24 08:09:06 +00:00
Adrian Chadd
e1b5ab97e8 Introduce an optional ath(4) radiotap vendor extension.
This includes a few new fields in each RXed frame:

* per chain RX RSSI (ctl and ext);
* current RX chainmask;
* EVM information;
* PHY error code;
* basic RX status bits (CRC error, PHY error, etc).

This is primarily to allow me to do some userland PHY error processing
for radar and spectral scan data.  However since EVM and per-chain RSSI
is provided, others may find it useful for a variety of tasks.

The default is to not compile in the radiotap vendor extensions, primarily
because tcpdump doesn't seem to handle the particular vendor extension
layout I'm using, and I'd rather not break existing code out there that
may be (badly) parsing the radiotap data.

Instead, add the option 'ATH_ENABLE_RADIOTAP_VENDOR_EXT' to your kernel
configuration file to enable these options.
2012-06-24 07:01:49 +00:00
Adrian Chadd
891f9ad6f2 .. and this wasn't supposed to be in the previous commit either. 2012-06-16 22:28:36 +00:00
Adrian Chadd
af0c4b9e4f oops, remove this, it wasn't supposed to be committed. 2012-06-16 22:26:45 +00:00
Adrian Chadd
14d33c7e35 Create a function - ath_tx_kick() - which is called where ath_start() is
called to "kick" along TX.

For now, schedule a taskqueue call.

Later on I may go back to the direct call of ath_rx_tasklet() - but for
now, this will do.

I've tested UDP and TCP TX. UDP TX still achieves 240MBit, but TCP
TX gets stuck at around 100MBit or so, instead of the 150MBit it should
be at.  I'll re-test with no ACPI/power/sleep states enabled at startup
and see what effect it has.

This is in preparation for supporting an if_transmit() path, which will
turn ath_tx_kick() into a NUL operation (as there won't be an ifnet
queue to service.)

Tested:
	* AR9280 STA

TODO:
	* test on AR5416, AR9160, AR928x STA/AP modes

PR:		kern/168649
2012-06-05 03:14:49 +00:00
Adrian Chadd
470a7f4191 Migrate the TX path to a taskqueue for now, until a better way of
implementing parallel TX and TX/RX completion can be done without
simply abusing long-held locks.

Right now, multiple concurrent ath_start() entries can result in
frames being dequeued out of order.  Well, they're dequeued in order
fine, but if there's any preemption or race between CPUs between:

* removing the frame from the ifnet, and
* calling and runningath_tx_start(), until the frame is placed on a
  software or hardware TXQ

Then although dequeueing the frame is in-order, queueing it to the hardware
may be out of order.

This is solved in a lot of other drivers by just holding a TX lock over
a rather long period of time.  This lets them continue to direct dispatch
without races between dequeue and hardware queue.

Note to observers: if_transmit() doesn't necessarily solve this.
It removes the ifnet from the main path, but the same issue exists if
there's some intermediary queue (eg a bufring, which as an aside also
may pull in ifnet when you're using ALTQ.)

So, until I can sit down and code up a much better way of doing parallel
TX, I'm going to leave the TX path using a deferred taskqueue task.
What I will likely head towards is doing a direct dispatch to hardware
or software via if_transmit(), but it'll require some driver changes to
allow queues to be made without using the really large ath_buf / ath_desc
entries.

TODO:

* Look at how feasible it'll be to just do direct dispatch to
  ath_tx_start() from if_transmit(), avoiding doing _any_ intermediary
  serialisation into a global queue.  This may break ALTQ for example,
  so I have to be delicate.

* It's quite likely that I should break up ath_tx_start() so it
  deposits frames onto the software queues first, and then only fill
  in the 802.11 fields when it's being queued to the hardware.
  That will make the if_transmit() -> software queue path very
  quick and lightweight.

* This has some very bad behaviour when using ACPI and Cx states.
  I'll do some subsequent analysis using KTR and schedgraph and file
  a follow-up PR or two.

PR:		kern/168649
2012-06-04 22:01:12 +00:00
Adrian Chadd
803f0c592d Re-add 'ic' and properly wrap it in the SUPERG macro. 2012-05-21 17:51:26 +00:00
Bernhard Schmidt
62763b6197 Remove unused variable. 2012-05-20 09:46:48 +00:00
Adrian Chadd
d542f7f686 Migrate the per-frame code out from ath_rx_proc() to ath_rx_pkt().
This will (eventually) be used by the EDMA RX path used by the
AR93xx and later NICs.
2012-05-20 06:35:22 +00:00
Adrian Chadd
a35dae8d87 Migrate the TDMA management functions out of if_ath.c into if_ath_tdma.c.
There's some TX path TDMA code in if_ath_tx.c which should be migrated
out, but first I should likely try and verify/fix/repair the TDMA support
in 9.x and -HEAD.
2012-05-20 02:49:42 +00:00
Adrian Chadd
e60c4fc2c9 Migrate the bulk of the RX routines out from if_ath.c to if_ath_rx.[ch].
* migrate the rx processing out into if_ath_rx.c
* migrate the TSF functions into if_ath_tsf.h, as inlines

This is in prepration for supporting the EDMA RX routines, required to
support the AR93xx series NICs.

TODO:

* ath_start() shouldn't be private, but it's called as part of
  the RX path. I should likely migrate ath_rx_tasklet() back into
  if_ath.c and then return this to be 'static'.  The RX code really
  shouldn't need to see TX routines (and vice versa.)

* ath_beacon_* should be in if_ath_beacon.[ch].

* ath_tdma_* should be in if_ath_tdma.[ch] ...
2012-05-20 02:05:10 +00:00