Commit Graph

145 Commits

Author SHA1 Message Date
Adrian Chadd
4547f047ba Retried frames need to be inserted in the head of the list, not the tail.
This is an unfortunate byproduct of how the routine is used - it's called
with the head frame on the queue, but if the frame is failed, it's inserted
into the tail of the queue.

Because of this, the sequence numbers would get all shuffled around and
the BAW would be bumped past this sequence number, that's now at the
end of the software queue.  Then, whenever it's time for that frame
to be transmitted, it'll be immediately outside of the BAW and TX will
stall until the BAW catches up.

It can also result in all kinds of weird duplicate BAW frames, leading
to hilarious panics.

PR:		kern/166190
2012-06-11 07:15:48 +00:00
Adrian Chadd
42f4d0618a Finish undoing the previous commit - this part of the code is no longer
required.

PR:		kern/166190
2012-06-11 07:08:40 +00:00
Adrian Chadd
c2ac9655c3 Introduce a new lock debug which is specifically for making sure the
_TID_ lock is held.

For now the TID lock is also the TXQ lock. This is just to make sure
that the right TXQ lock is held for the given TID.
2012-06-11 07:06:49 +00:00
Adrian Chadd
a108d2d6c6 Revert r233227 and followup commits as it breaks CCMP PN replay detection.
This showed up when doing heavy UDP throughput on SMP machines.

The problem with this is because the 802.11 sequence number is being
allocated separately to the CCMP PN replay number (which is assigned
during ieee80211_crypto_encap()).

Under significant throughput (200+ MBps) the TX path would be stressed
enough that frame TX/retry would force sequence number and PN allocation
to be out of order.  So once the frames were reordered via 802.11 seqnos,
the CCMP PN would be far out of order, causing most frames to be discarded
by the receiver.

I've fixed this in some local work by being forced to:

  (a) deal with the issues that lead to the parallel TX causing out of
      order sequence numbers in the first place;
  (b) fix all the packet queuing issues which lead to strange (but mostly
      valid) TX.

I'll begin fixing these in a subsequent commit or five.

PR:		kern/166190
2012-06-11 06:59:28 +00:00
Adrian Chadd
b815538dec Avoid using hard-coded numbers here. 2012-05-26 01:35:11 +00:00
Adrian Chadd
d3a6425b7c Fix up some corner cases with aggregation handling.
I've come across a weird scenario in net80211 where two TX streams will
happily attempt to setup an aggregation session together.
If we're very lucky, it happens concurrently on separate CPUs and the
total lack of locking in the net80211 aggregation code causes this stuff
to race. Badly.

So >1 call would occur to the ath(4) addba start, but only one call would
complete to addba complete or timeout.  The TID would thus stay paused.

The real fix is to implement some proper per-node (or maybe per-TID)
locking in net80211, which then could be leveraged by the ath(4) TX
aggregation code.

Whilst I'm at it, shuffle around the debugging messages a bit.
I like to keep people on their toes.
2012-05-22 06:31:03 +00:00
Adrian Chadd
6deb7f3271 For now, add a quick debugging patch to log when the hw TXQ != the TID/AC. 2012-05-21 22:43:38 +00:00
Adrian Chadd
4dfd450768 Rename ath_tx_cleanup() -> ath_tx_tid_cleanup() in order to not clash
with a symbol in if_ath.c
2012-05-21 22:39:13 +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
Adrian Chadd
0e22ed0eb2 Migrate ath_debug and sc_debug from an int to a uint64_t / QUAD;
add some more BAR debugging logic.

* Change the definition of ath_debug and ath_softc.sc_debug  from
  int to uint64_t;
* Change the relevant sysctls;
* Add a new BAR TX debugging field;
* Use this in if_ath_tx.

This has been tested by using the sysctl program, which happily allows
for fields > 32 bits to be configured.
2012-05-15 23:39:37 +00:00
Adrian Chadd
e9a6408e07 Handle non-xretry errors the same as xretry errors for now.
Although I _should_ handle the other errors in various ways (specifically
errors like FILT), treating them as having transmitted successfully
is completely wrong.  Here, they'd be counted as successful and the BAW
would be advanced.. but the RX side wouldn't have received them.

The specific errors I've been seeing here are HAL_TXERR_FILT.

This patch does fix the issue - I've tested it using -i 0.001 pings
(enough to start aggregation) and now the behaviour is correct:

* The RX side never sees a "moved window" error, and
* The TX side sends BARs as needed, with the RX side correctly handling
  them.

PR:		kern/167902
2012-05-15 04:55:15 +00:00
Adrian Chadd
96ff26ff5d Fix a couple of sc_ac2q[] mappings that were using the TID, not the AC.
PR:		kern/167588
2012-05-04 20:31:27 +00:00
Adrian Chadd
39da9d42bd Remove some of the redundant locking done in the TX completion path,
when checking whether BAR frames need to be checked.
2012-04-26 23:57:24 +00:00
Adrian Chadd
2aa563dfeb Migrate the net80211 TX aggregation state to be from per-AC to per-TID.
TODO:

* Test mwl(4) more thoroughly!

Reviewed by:	bschmidt (for iwn)
2012-04-15 20:29:39 +00:00
Adrian Chadd
b43facbff3 After reviewing the mcast/sleep station code a little, undo some brain
damage which I committed when I had less clue about such things.

Don't ever put normal data frames on the mcast software queue.
Just put mcast frames there if needed.

Pass the txq decision into ath_tx_normal_setup(), as we've already made
the decision.  Don't re-do it.

Whilst i'm here, add another random debugging statement.
2012-04-08 00:40:16 +00:00
Adrian Chadd
4d7f883711 Do a dma sync before the descriptors are chained together.
I need to find a better place to do this..
2012-04-07 05:51:43 +00:00
Adrian Chadd
e2e4a2c2a1 Break out the legacy duration and protection code into routines,
call these after rate control selection is done.

The duration/protection code wasn't working - it expected the rix to
be valid.  Unfortunately after I moved the rate control selection into
late in the process, the rix value isn't valid and thus the protection/
duration code would get things wrong.

HT frames are now correctly protected with an RTS and for the AR5416,
this involves having the aggregate frames be limited to 8K.

TODO:

* Fix up the DMA sync to occur just before the frame is queued to the
  hardware.  I'm adjusting the duration here but not doing the DMA
  flush.

* Doubly/triply ensure that the aggregate frames are being limited to
  the correct size, or the AR5416 will get unhappy when TXing RTS-protected
  aggregates.
2012-04-07 05:48:26 +00:00
Adrian Chadd
875a9451d9 Remove duplicate txflags field from ath_buf.
rename bf_state.bfs_flags to bf_state.bfs_txflags, as that is what
it effectively is.
2012-04-07 02:01:26 +00:00
Adrian Chadd
88b3d48316 Implement BAR TX.
A BAR frame must be transmitted when an frame in an A-MPDU session fails
to transmit - it's retried too often, or it can't be cloned for
re-transmission.  The BAR frame tells the remote side to advance the
left edge of the block-ack window (BAW) to a new value.

In order to do this:

* TX for that particular node/TID must be paused;
* The existing frames in the hardware queue needs to be completed, whether
  they're TXed successfully or otherwise;
* The new left edge of the BAW is then communicated to the remote side
  via a BAR frame;
* Once the BAR frame has been sucessfully TXed, aggregation can resume;
* If the BAR frame can't be successfully TXed, the aggregation session
  is torn down.

This is a first pass that implements the above.  What needs to be done/
tested:

* What happens during say, a channel reset / stuck beacon _and_ BAR
  TX.  It _should_ be correctly buffered and retried once the
  reset has completed.  But if a bgscan occurs (and they shouldn't,
  grr) the BAR frame will be forcibly failed and the aggregation session
  will be torn down.

  Yes, another reason to disable bgscan until I've figured this out.

* There's way too much locking going on here.  I'm going to do a couple
  of further passes of sanitising and refactoring so the (re) locking
  isn't so heavy.  Right now I'm going for correctness, not speed.

* The BAR TX can fail if the hardware TX queue is full.  Since there's
  no "free" space kept for management frames, a full TX queue (from eg
  an iperf test) can race with your ability to allocate ath_buf/mbufs
  and cause issues.  I'll knock this on the head with a subsequent
  commit.

* I need to do some _much_ more thorough testing in hostap mode to ensure
  that many concurrent traffic streams to different end nodes are correctly
  handled.  I'll find and squish whichever bugs show up here.

But, this is an important step to being able to flip on 802.11n by default.
The last issue (besides bug fixes, of course) is HT frame protection and
I'll address that in a subsequent commit.
2012-04-04 23:45:15 +00:00
Adrian Chadd
d743debcbf Now that I've fixed the BAW TX hangs, disable this verbose debugging
again.
2012-04-04 22:22:50 +00:00
Adrian Chadd
33d340324a Correctly handle AR_MoreAggr when assembling multi-descriptor final frames.
Linux ath9k doesn't have this issue as it doesn't try queuing multi-
descriptor frames to the hardware.

Before, I was only setting the first and last descriptor in the final
frame correctly - and that was done by accident. The first descriptor in
the last sub-frame was being correctly updated by ath_tx_setds_11n();
the last descriptor in the last sub-frame was being correctly updated
by ath_buf_set_rate(). But both of those are "incorrect".

The correct behaviour is:

* AR_IsAggr is set for all descriptors for all subframes in an aggregate.
* AR_MoreAggr is set for all descriptors for all non-final sub-frames
  in an aggregate.

Ie, all descriptors in the last sub-frame of an aggregate must have this
field set to 0.

I still need to do a couple of extra passes to ensure the pad delimiter
field is being correctly handled in all descriptors in the last sub-frame.
2012-04-04 21:49:49 +00:00
Adrian Chadd
03e9308f0a Defer the rescheduling of TID -> TXQ frames in some instances.
Right now ath_txq_sched() is mainly called from the TX ath_tx_processq()
routine, which is (mostly) done as part of the taskqueue.  It shouldn't
be called outside the taskqueue.

But now that I'm about to flip back on BAR TX, I'm going to start
stressing the ath_tx_tid_pause() and ath_tx_tid_resume() paths.
What I don't want to have happen is a reschedule of the TID traffic
_during_ the completion of TX frames.

Ideally I'd like to have a way to flag back up to the processing code
that the current hardware queue should be rechecked for software TID
queue frames.  But for now, this should suffice for the BAR TX case.

I may eventually delete this code once I've brought some further
sanity to the general TX queue/completion path.
2012-03-29 17:39:18 +00:00
Adrian Chadd
091e146cf6 Use the assigned sequence number when checking if a retried packet is
within the BAW.

This regression was introduced in ane earlier commit by me to fix the
BAW seqno allocation-but-not-insertion-into-BAW race.  Since it was only
ever using the to-be allocated sequence number, any frame retries
with the first frame in the BAW still in the software queue would
have constantly failed, as ni_txseqs[tid] would always be outside
the BAW.

TODO:

* Extract out the mostly common code here in the agg and non-agg ADDBA
  case and stuff it into a single function.

PR:		kern/166357
2012-03-26 16:05:19 +00:00
Adrian Chadd
0f04c5a211 Add some more debugging to try and nail down exactly what's going on when
I see traffic stalls.

It turns out that the bug isn't because the first and last frame in the
BAW is in the software queue.  It is more likely that it's because
the first frame in the BAW is still in the software queue and thus there's
no more room to allocate and do subsequent TX.

PR:		kern/166357
2012-03-25 23:50:34 +00:00
Adrian Chadd
12be5b9c59 Add some further debugging to try and aid tracking down what the state of
things were just before a full software queue is drained.
2012-03-22 21:48:36 +00:00
Adrian Chadd
0b96ef630b Delay sequence number allocation for A-MPDU until just before the frame
is queued to the hardware.

Because multiple concurrent paths can execute ath_start(), multiple
concurrent paths can push frames into the software/hardware TX queue
and since preemption/interrupting can occur, there's the possibility
that a gap in time will occur between allocating the sequence number
and queuing it to the hardware.

Because of this, it's possible that a thread will have allocated a
sequence number and then be preempted by another thread doing the same.
If the second thread sneaks the frame into the BAW, the (earlier) sequence
number of the first frame will be now outside the BAW and will result
in the frame being constantly re-added to the tail of the queue.
There it will live until the sequence numbers cycle around again.

This also creates a hole in the RX BAW tracking which can also cause
issues.

This patch delays the sequence number allocation to occur only just before
the frame is going to be added to the BAW.  I've been wanting to do this
anyway as part of a general code tidyup but I've not gotten around to it.
This fixes the PR.

However, it still makes it quite difficult to try and ensure in-order
queuing and dequeuing of frames. Since multiple copies of ath_start()
can be run at the same time (eg one TXing process thread, one TX completion
task/one RX task) the driver may end up having frames dequeued and pushed
into the hardware slightly/occasionally out of order.

And, to make matters more annoying, net80211 may have the same behaviour -
in the non-aggregation case, the TX code allocates sequence numbers
before it's thrown to the driver.  I'll open another PR to investigate
this and potentially introduce some kind of final-pass TX serialisation
before frames are thrown to the hardware.  It's also very likely worthwhile
adding some debugging code into ath(4) and net80211 to catch when/if this
does occur.

PR:		kern/166190
2012-03-20 04:50:25 +00:00
Adrian Chadd
b09e37a185 Fix a panic introduced in a previous commit - non-beaconing modes (eg STA)
don't setup the avp mcast queue.

This is a bit annoying though - it turns out the mcast queue isn't
initialised for STA mode but it's then touched to see whether anything
is in it.  That should be fixed in a subsequent commit.

Noticed by:	gperez@entel.upc.edu
PR:		kern/165895
2012-03-10 19:58:23 +00:00
Adrian Chadd
9c85ff9164 Don't flood the cabq/mcastq with frames.
In a very noisy 2.4GHz environment (with HT/40 enabled, making it worse)
I saw the following occur:

* the air was considered "busy" a lot of the time;
* the cabq time is quite short due to staggered beacons being enabled;
* it just wasn't able to keep up TX'ing CABQ frames;
* .. and the cabq would swallow up all the TX ath_buf's.

This patch introduces a twiddle which allows the maximum cabq depth to be
set, forcing further frames to be dropped.

It defaults to the TX buffer count at the moment, so the default behaviour
isn't changed.

I've also started fleshing out a similar setup for the data path, so
it doesn't swallow up all the available TX buffers and preventing management
frames (such as ADDBA) out.

PR:		kern/165895
2012-03-10 04:14:04 +00:00
Adrian Chadd
c5940c30a7 Document that we may end up with some suboptimal handling of data
frames with stations in power saving mode.

I'm not (yet) sure how to handle TX'ing aggregates frames to stations
that are in power saving mode, or whether that's even a feasible thing
to do. So in order to (mostly) not forget, leave a couple of comments
in the code.

The code presently assumes that the aggregation TID state for an ath_node
is locked not by the ath_node lock or a node+TID lock, but behind the
hardware queue said TID maps to.  This assumption is going to be
incorrect for stations in power saving mode as we'll be TX'ing frames
on the multicast queue.

In any case, I'm afraid its a "later problem". :/
2012-03-09 22:58:34 +00:00
Adrian Chadd
b1f3262c73 Correctly initialise the TXQ link pointer to the last descriptor in
the last buffer in the list.

The current behaviour (due to me, so pointy hat is firmly on my head here)
was incorrect - it was setting the link pointer to the last descriptor
of the _first_ buffer in the TXQ.  Instead, it should have set it to the
last descriptor in the _last_ buffer in the TXQ.

This showed up as occasional TX stalls with frames in the TXQ but no
TX progress being made.  Further inspection showed the TXQ looked like
it contained multiple "lists" of frames - there'd be a list of correct
frames, then a NULL link pointer, but there'd be a next buffer in the
list.

Since this code is only called upon an interface reset, it's likely
this only began showing up when I started doing stress testing
in environments which annoy the radios enough to cause lockups.

I've not yet any TX stalls with this patch applied.

PR:		kern/165866
2012-03-08 23:53:38 +00:00
Adrian Chadd
d4365d165b style(9) changes. This shouldn't change functionality. 2012-01-11 00:16:44 +00:00
Adrian Chadd
c0711b9756 If frames are dumped out of the queue, let's at least see what they are.
This shows that the majority of the weird traffic I see here are probe
frames that haven't been sent out, but I can also trigger this condition
by doing ICMP w/ -i 0.3 - enough to trigger the TX during actual scanning,
but not fast enough to stop scanning from occuring.

PR:		kern/163689
2012-01-01 01:08:51 +00:00
Adrian Chadd
2d3d4776cd Flesh out the TX aggregation completion statistics.
* Failall is now named just that.
* Add TX ok and TX fail, for aggregate frame sub-frames.

This will break athstats; a followup commit wil resolve this.

Sponsored by:	Hobnob, Inc.
2011-11-23 05:00:25 +00:00
Adrian Chadd
ef27340c5b Flesh out some slightly dirty reset/channel change serialisation code
for the ath(4) driver.

Currently, there's nothing stopping reset, channel change and general
TX/RX from overlapping with each other. This wasn't a big deal with
pre-11n traffic as it just results in some dropped frames.
It's possible this may have also caused some inconsistencies and
badly-setup hardware.

Since locks can't be held across all of this (the Linux solution)
due to LORs with the network stack locks, some state counter
variables are used to track what parts of the code the driver is
currently in.

When the hardware is being reset, it disables the taskqueue and
waits for pending interrupts, tx, rx and tx completion before
it begins the reset or channel change.

TX and RX both abort if called during an active reset or channel
change.

Finally, the reset path now doesn't flush frames if ATH_RESET_NOLOSS
is set. Instead, completed TX and RX frames are passed back up to
net80211 before the reset occurs.

This is not without problems:

* Raw frame xmit are just dropped, rather than placed on a queue.
  The net80211 stack should be the one which queues these frames
  rather than the driver.

* It's all very messy. It'd be better if these hardware operations
  were serialised on some kind of work queue, rather than hoping
  they can be run in parallel.

* The taskqueue block/unblock may occur in parallel with the
  newstate() function - which shuts down the taskqueue and restarts
  it once the new state is known. It's likely these operations should
  be refcounted so the taskqueue is restored once no other areas
  in the code wish to suspend operations.

* .. interrupt disable/enable should likely be refcounted as well.

With this work, the driver does not drop frames during stuck beacon
or fatal errors and thus 11n traffic continues to run correctly.
Default and full resets however do still drop frames and it's possible
this may occur, causing traffic loss and session stalls.

Sponsored by:	Hobnob, Inc.
2011-11-18 05:06:30 +00:00
Adrian Chadd
38962489b3 If software retransmit occurs with an ath_buf marked ATH_BUF_BUSY,
it's cloned and that clone is retransmitted. This means that the
ath_buf pointer squirreled away on the baw window array is suddenly
wrong and was causing all kinds of console output.

This updates the pointer in that particular BAW slot to the new
ath_buf after ensuring that:

* the new and old buffers have the same seqno;
* the current slot pointer matches the old buffer pointer.

This quietens the debugging output (again), restoring said debugging
to only signify when a broken condition has occured.

Sponsored by:	Hobnob, Inc.
2011-11-09 18:24:20 +00:00
Adrian Chadd
eb6f0de09d Introduce TX aggregation and software TX queue management
for Atheros AR5416 and later wireless devices.

This is a very large commit - the complete history can be
found in the user/adrian/if_ath_tx branch.

Legacy (ie, pre-AR5416) devices also use the per-software
TXQ support and (in theory) can support non-aggregation
ADDBA sessions. However, the net80211 stack doesn't currently
support this.

In summary:

TX path:

* queued frames normally go onto a per-TID, per-node queue
* some special frames (eg ADDBA control frames) are thrown
  directly onto the relevant hardware queue so they can
  go out before any software queued frames are queued.
* Add methods to create, suspend, resume and tear down an
  aggregation session.
* Add in software retransmission of both normal and aggregate
  frames.
* Add in completion handling of aggregate frames, including
  parsing the block ack bitmap provided by the hardware.
* Write an aggregation function which can assemble frames into
  an aggregate based on the selected rate control and channel
  configuration.
* The per-TID queues are locked based on their target hardware
  TX queue. This matches what ath9k/atheros does, and thus
  simplified porting over some of the aggregation logic.
* When doing TX aggregation, stick the sequence number allocation
  in the TX path rather than net80211 TX path, and protect it
  by the TXQ lock.

Rate control:

* Delay rate control selection until the frame is about to
  be queued to the hardware, so retried frames can have their
  rate control choices changed. Frames with a static rate
  control selection have that applied before each TX, just
  to simplify the TX path (ie, not have "static" and "dynamic"
  rate control special cased.)
* Teach ath_rate_sample about aggregates - both completion and
  errors.
* Add an EWMA for tracking what the current "good" MCS rate is
  based on failure rates.

Misc:

* Introduce a bunch of dirty hacks and workarounds so TID mapping
  and net80211 frame inspection can be kept out of the net80211
  layer. Because of the way this code works (and it's from Atheros
  and Linux ath9k), there is a consistent, 1:1 mapping between
  TID and AC. So we need to ensure that frames going to a specific
  TID will _always_ end up on the right AC, and vice versa, or the
  completion/locking will simply get very confused. I plan on
  addressing this mess in the future.

Known issues:

* There is no BAR frame transmission just yet. A whole lot of
  tidying up needs to occur before BAR frame TX can occur in the
  "correct" place - ie, once the TID TX queue has been drained.

* Interface reset/purge/etc results in frames in the TX and RX
  queues being removed. This creates holes in the sequence numbers
  being assigned and the TX/RX AMPDU code (on either side) just
  hangs.

* There's no filtered frame support at the present moment, so
  stations going into power saving mode will simply have a number
  of frames dropped - likely resulting in a traffic "hang".

* Raw frame TX is going to just not function with 11n aggregation.
  Likely this needs to be modified to always override the sequence
  number if the frame is going into an aggregation session.
  However, general raw frame injection currently doesn't work in
  general in net80211, so let's just ignore this for now until
  this is sorted out.

* HT protection is just not implemented and won't be until the above
  is sorted out. In addition, the AR5416 has issues RTS protecting
  large aggregates (anything >8k), so the work around needs to be
  ported and tested. Thus, this will be put on hold until the above
  work is complete.

* The rate control module 'sample' is the only currently supported
  module; onoe/amrr haven't been tested and have likely bit rotted
  a little. I'll follow up with some commits to make them work again
  for non-11n rates, but they won't be updated to handle 11n and
  aggregation. If someone wishes to do so then they're welcome to
  send along patches.

* .. and "sample" doesn't really do a good job of 11n TX. Specifically,
  the metrics used (packet TX time and failure/success rates) isn't as
  useful for 11n. It's likely that it should be extended to take into
  account the aggregate throughput possible and then choose a rate
  which maximises that. Ie, it may be acceptable for a higher MCS rate
  with a higher failure to be used if it gives a more acceptable
  throughput/latency then a lower MCS rate @ a lower error rate.
  Again, patches will be gratefully accepted.

Because of this, ATH_ENABLE_11N is still not enabled by default.

Sponsored by:	Hobnob, Inc.
Obtained from:	Linux, Atheros
2011-11-08 22:43:13 +00:00
Adrian Chadd
6edf1dc729 Change the descriptor logic to use bf_lastds to point to the last
descriptor, rather than using the maths involving bf_desc[bf_nseg - 1].

When doing TX aggregation, the status will be updated in the -final-
descriptor of the -final- subframe in an aggregate. Thus bf_lastds
may point to the last descriptor in a completely different ath_buf.

Sponsored by:	Hobnob, Inc.
2011-11-08 21:25:36 +00:00
Adrian Chadd
6b349e5a86 Migrate the STAILQ lists to TAILQs.
A bunch of the 11n TX aggregation logic wants to traverse lists of buffers
in various ways. In order to provide O(1) behaviour in this instance,
use TAILQs.

This does blow out the memory footprint and CPU cycles slightly for some
of these operations. I may convert some of these back to STAILQs once
the rest of the software transmit queue handling has been stabilised.

Sponsored by:	Hobnob, Inc.
2011-11-08 17:08:12 +00:00
Adrian Chadd
4f545a2c3d Add in HT protection but disable it by default.
I'll clear how it's supposed to work with Bernhard and then look
at enabling this in the correct situations.

But this -does- enable HT RTS protection (using the appropriate legacy
rates) if this bit of code is enabled.
2011-03-28 11:48:49 +00:00
Adrian Chadd
e42b5dba51 Shuffle around the RTS/CTS rate/duration logic.
* Turn ath_tx_calc_ctsduration() into a function that
  returns the ctsduration, or -1 for HT rates;
* add a printf() to ath_tx_calc_ctsduration() which will be
  very loud if somehow that function is called with an MCS
  rate;
* Add ath_tx_get_rtscts_rate() which returns the RTS/CTS
  rate to use for the given data rate, incl. the short
  preamble flag;
* Only call ath_tx_calc_ctsduration() for non-11n chipsets;
  11n chipsets don't require the rtscts duration to be
  calculated.
2011-02-22 00:37:53 +00:00
Adrian Chadd
bf26df3693 The current code used the fields in ath_set11nratescenario() . Use them
correctly:

* pass in whether to allow the hardware to override the duration field
  in the main data frame (durupdate_en) - PS_POLL frames in particular
  don't have the duration bit overriden;
* there's no rts/cts duration here; that's done elsehwere
2011-02-12 02:14:19 +00:00
Adrian Chadd
c1782ce034 Modify the TX path to set and use the 11n rate scenario bits.
This isn't strictly required to TX (at least non-agg and non-HT40,
non-short-GI) frames; but as it needs to be done anyway, just get
it done.

Linux ath9k uses the rate scenario style path for -all- packets,
legacy or otherwise. This code does much the same.

Beacon TX still uses the legacy, non-rate-scenario TX descriptor
setup. Ath9k also does this.

This 11n rate scenario path is only called for chips in the AR5416
HAL; legacy chips use the previous interface for TX'ing.
2011-02-03 20:30:17 +00:00
Adrian Chadd
79f02dbfed Refator the common code which calculates the 802.11g protection duration. 2011-02-01 07:50:26 +00:00
Adrian Chadd
81a826882a * Add a rather hacky "does this speak the 11n TX descriptor format"
function; which will be later used by the TX path to determine
  whether to use the extended features or not.

* Break out the descriptor chaining logic into a separate function;
  again so it can be switched out later on for the 11n version when
  needed.

* Refactor out the encryption-swizzling code that's common in the
  raw and normal TX path.
2011-02-01 06:59:44 +00:00
Adrian Chadd
b8e788a53a Migrate the TX path code out of if_ath and into a separate source file.
There's two reasons for this:

* the raw and non-raw TX path shares a lot of duplicate code which should be
  refactored;
* the 11n-ready chip TX path needs a little reworking.
2011-01-29 11:35:23 +00:00