Commit Graph

6 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
Adrian Chadd
6479ef780d Bring over the initial 802.11n bluetooth coexistence support code.
The Linux ath9k btcoex code is based off of this code.

Note this doesn't actually implement functional btcoex; there's some
driver glue and a whole lot of verification that is required.

On the other hand, I do have the AR9285+BT and AR9287+BT NICs which
this code supports..

Obtained from:	Qualcomm Atheros, Linux ath9k
2012-06-26 22:16:53 +00:00
Adrian Chadd
404b0e8b91 Since the only thing with a mux is the AR5416 and later, and we're now
doing split software/hardware LED configuration, we can now simply
treat "softled" as an "output" mux type.

This works fine on this DWA-552. Previous generation (pre-11n NICs) don't
have a GPIO mux - only input/output configuration - so they ignore this
field.
2011-12-26 07:48:29 +00:00
Adrian Chadd
3440495a52 Flesh out configurable hardware based LED blinking.
The hardware (MAC) LED blinking involves a few things:

* Selecting which GPIO pins map to the MAC "power" and "network" lines;
* Configuring the MAC LED state (associated, scanning, idle);
* Configuring the MAC LED blinking type and speed.

The AR5416 HAL configures the normal blinking setup - ie, blink rate based
on TX/RX throughput.  The default AR5212 HAL doesn't program in any
specific blinking type, but the default of 0 is the same.

This code introduces a few things:

* The hardware led override is configured via sysctl 'hardled';
* The MAC network and power LED GPIO lines can be set, or left at -1
  if needed.  This is intended to allow only one of the hardware MUX
  entries to be configured (eg for PCIe cards which only have one LED
  exposed.)

TODO:

* For AR2417, the software LED blinking involves software blinking the
  Network LED.  For the AR5416 and later, this can just be configured
  as a GPIO output line.  I'll chase that up with a subsequent commit.

* Add another software LED blink for "Link", separate from "activity",
  which blinks based on the association state.  This would make my
  D-Link DWA-552 have consistent and useful LED behaviour (as they're
  marked "Link" and "Activity."

* Don't expose the hardware LED override unless it's an AR5416 or later,
  as the previous generation hardware doesn't have this multiplexing
  setup.
2011-12-26 07:47:05 +00:00
Adrian Chadd
6558ffd99a Refactor out the software LED config code into a common function, called
ath_led_config().

The eventual aim is to have both software and hardware based LED
configuration done here.
2011-12-26 05:46:22 +00:00
Adrian Chadd
c65ee21d46 First pass of LED related code changes.
Migrate the LED code out of if_ath.c and into if_ath_led.c.
These routines are _all_ software based LED blinking.
2011-12-26 05:37:09 +00:00