If the data frame transmission failures, it may have a node reference
that needs cleaning up.
If the frame is marked as M_ENCAP then it should treat recvif as a node
reference and clear it.
Now - since the mbuf has been freed by calling if_transmit() (even on
failure), the mbuf has to be treated as invalid. Hence why the ifp is
used.
If if_transmit() fails, the node ref may need freeing.
This is based on the same logic used by the ageq, which the mesh code
(re) uses for frames which need to be staged before transmitting.
It also does the same thing - if M_ENCAP is set on the mbuf, it treats
the recvif pointer as a node reference and derefs it.
processing. For if_transmit() style hardware drivers (which none publicly
exist yet, for wireless) they will need to still implement if_start()
but only to re-start the TX queue.
an IBSS VAP to RUN.
An 11n IBSS was beaconing HTINFO/HTCAP IE's that didn't have any HT
information setup (like the HT TX/RX MCS bitmask.)
Tested:
* AR9280, IBSS - both a statically setup channel and a scanned channel
PR: kern/172955
parameters in IBSSes.
IBSS was just being plainly ignored here even though aggressive mode
was 'on'.
This still doesn't fix the "why are the WME parameters reset upon
interface down/up" issue.
PR: kern/165969
is totally wrong.
If we parse the WME IE here, we'll be constantly updating the WME
configuration from each WME enabled IBSS node we see.
There's a separate issue where the WME configuration is blanked out
when the interface is brought up; the WME parameters aren't "sticky."
Also, ieee80211_init_neighbor() parses the ath IE, so doing it here
isn't required.
Sorry about the noise.
PR: kern/165969
The Adhoc support wasn't parsing and handling the ath specific and WME
IEs, thus the atheros vendor support and WME TXOP parameters aren't being
copied from the peer.
It copies the WME parameters from whichever adhoc node it decides to
associate to, rather than just having them be statically configured
per adhoc node. This may or may not be exactly "right", but it's certainly
going to be more convienent for people - they just have to ensure their
adhoc nodes are setup with correct WME parameters.
Since WME parameters aren't per-node but are configured on hardware TX
queues, if some nodes support WME and some don't - or perhaps, have
different WME parameters - things will get quite quirky.
So ensure that you configure your adhoc nodes with the same WME
parameters.
Secondly - the Atheros Vendor IE is parsed and operated on per-node, so
this should work out ok between nodes that do and don't do Atheros
extensions. Once you see a becaon from that node and you setup the
association state, it _should_ parse things correctly.
TODO:
* I do need to ensure that both adhoc setup paths are correctly updating
the IE stuff. Ie, if the adhoc node is created by a data frame instead
of a beacon frame, it'll come up with no WME/ath IE config. The next
beacon frame that it receives from that node will update the state.
I just need to sit down and better understand how that's suppose to
work in IBSS mode.
Tested:
* AR5416 <-> AR9280 - fast frames and the WME configuration both popped
up. (This is with a local HAL patch that enables the fast frames
capability on the AR5416 chipsets.)
PR: kern/165969
The stageqdepth (global, over all staging queues) was being kept
incorrectly. It was being incremented whenever things were added,
but only decremented during a flush. During active fast frames activity
it wasn't being decremented, resulting in it always having a non-zero
value during normal fast-frames operation.
It was only used when checking if the aging queue should be checked;
we may as well just defer to each of those staging queue counters (which
look correct, thankfully.)
Whilst I'm here, add locking assertions in the staging queue add/remove
functions. The current crash shows that the staging queue has one frame,
but only has a tail pointer set (the head pointer being set to NULL.)
I'd like to grab a few more crashes where these locking assertions are
in place so I can narrow down the issue between "somehow locking is
messed up and things are racy" and "the stage queue head/tail pointer
manipulation logic is subtly wrong."
Tested:
* AR5416 STA, AR5413 AP; with FastFrames enabled in the AR5416 HAL.
PR: kern/174283
pointers and leave the stage queue flush routine to just do nothing
(since both head and tail here will be NULL.)
This should quieten the "stageq empty" panic where the stageq itself
is empty, but it won't fix the second KASSERT() here "staging queue empty"
as that's likely a different underlying problem.
PR: kern/174283
The XC900M acts as a Ubiquiti XR9 (and I _think_ SR9) by default;
it uses the same 900MHz<->2.4GHz downconverter mapping.
However it has an alternative frequency mapping which squeezes in a couple
more half/quarter rate channels. Since the default HAL doesn't support
fractional tuning (sub-1MHz) in 2.4GHz mode on the AR5413/AR5414, they
implement it using a jumper.
Datasheet: http://www.xagyl.com/download/XC900M_Datasheet.pdf
Thankyou to Xagyl Communications for the XC900M NICs and Edgar Martinez
for organising the donation.
Tested:
* XC900M <-> XC900M
* Ubiquiti XR9 <-> XC900M
TODO:
* Test against SR9 and GZ901 if possible (the IEEE channel<->frequency
mapping may not match up, thanks to the slightly different channels
involved)
There are some people who use the -HEAD net80211 and wireless drivers
on earlier FreeBSD versions in order to get the updated 802.11n support.
The previous if_clone API changes broke this.
net80211 devices and vaps.
* vnet sets vnet0 during kldload and device probe/attach, but not for
the hotplug event. Thus, plugging in a NIC causes things to panic.
So, add a CURVNET_SET(vnet0) for now during the attach phase, until
the hotplug code is taught to set CURVNET_SET(vnet0).
* there's also no implied detach vnet context - so teach the detach
path about ifp->if_vnet.
* When creating/deleting vaps, also set the vnet context appropriately.
These can be done at any time.
Now, the problems!
* ieee80211.c is supposed to be OS-portable code, with no OS-specific stuff
like vnet. That should be fixed.
* When the device hotplug code gets taught about CURVNET_SET(vnet0), the
device vnet set can go away; but the VAP vnet set still needs to be there.
* .. and there still is the question about potentially adding an implied
CURVNET_SET(ifp->if_vnet) on if_free(), since any/all devices may end up
being detached by a hotplug event in today's world. That's going to be
a topic of a subsequent commit.
now use function calls:
if_clone_simple()
if_clone_advanced()
to initialize a cloner, instead of macros that initialize if_clone
structure.
Discussed with: brooks, bz, 1 year ago
This turns ieee80211_node_pwrsave(), ieee80211_sta_pwrsave() and
ieee80211_recv_pspoll() into methods.
The intent is to let drivers override these and tie into the power save
management pathway.
For ath(4), this is the beginning of forcing a node software queue to
stop and start as needed, as well as supporting "leaking" single frames
from the software queue to the hardware.
Right now, ieee80211_recv_pspoll() will attempt to transmit a single frame
to the hardware (whether it be a data frame on the power-save queue or
a NULL data frame) but the driver may have hardware/software queued frames
queued up. This initial work is an attempt at providing the hooks required
to implement correct behaviour.
Allowing ieee80211_node_pwrsave() to be overridden allows the ath(4)
driver to pause and unpause the entire software queue for a given node.
It doesn't make sense to transmit anything whilst the node is asleep.
Please note that there are other corner cases to correctly handle -
specifically, setting the MORE data bit correctly on frames to a station,
as well as keeping the TIM updated. Those particular issues can be
addressed later.
iterate lock.
This causes LORs and deadlocks as some code paths will have the com lock
held when calling ieee80211_iterate_nodes().
Here, the comlock isn't held during the node table and node iteration
locks; and the callback isn't called with any (extra) lock held.
PR: kern/170098
Submitted by: moonlightakkiy@yahoo.ca
MFC after: 4 weeks
* Earlier we compared two not equal metrics, one was what we recevied
in the 'new PREQ' while the other was what we already have saved which
was 'old PREQ' + link metric for the last hop;
* Fixed by adding 'new PREQ' + link metric for the last hop in a
temporary variable;
For description of the test scripts refer to projects/net80211_testsuite/wtap.
* Test 007 showed a bug in intermediate PREP for a proxy entry. Resolved;
* Test 002 showed a bug in the Addressing Mode flag for a PREQ. Resolved;
* qos[1] subfield is never assigned a value before this statement.
qos[1] can potentially be OR:ed with garbage. Make it an assignment instead;
* Remove brackets around if statement;
Approved by: adrian
bitmaps that may occur.
The way this works is:
* the beginning of the radiotap frame has a 32 bit "radiotap" namespace
bitmap;
* if the vendor bitmap bit is set, then the next bitmap will be interpreted
as a vendor bitmap;
* this can keep going on and on (ie, more vendor and radiotap namespace
bitmaps can be added) until the last bitmap with no "more bitmaps" set.
Now, the radiotap code gets its grubby fingers into the supplied
radiotap rx/tx buffer and replaces the channel configuration
for each frame. I don't know why it's not up to the drivers themselves
to do this, but I digress. So, if a vendor bitmap (or two, etc) exists,
the offset calculations will be all completely wrong.
This particular patch introduces ieee80211_radiotap_attachv(), which
includes the number of vendor bitmaps (well, any other bitmaps, vendor
or otherwise) between the end of the bitmap/header and the start of the
actual radiotap field entries. This makes the radiotap calculations
"right", so it correctly calculates where to overwrite the channel
configuration.
The long term fix is to go through and make each driver update the channel
configuration, as some of the fields are already being updated.
That, however, is a longer term fix that will need each driver fixed.
I leave that as an exercise to someone in the future.
* If the first call succeeded but failed to transmit, a timer would
reschedule it via bar_timeout(). Unfortunately bar_timeout() didn't
check the return value from the ieee80211_send_bar() reattempt and
if that failed (eg the driver ic_raw_xmit() failed), it would never
re-arm the timer.
* If BARPEND is cleared (which ieee80211_send_bar() will do if it can't
TX), then re-arming the timer isn't enough - once bar_timeout() occurs,
it'll see BARPEND is 0 and not run through the rest of the routine.
So when rearming the timer, also set that flag.
* If the TX wasn't occuring, bar_tx_complete() wouldn't be called and the
driver callback wouldn't be called either. So the driver had no idea
that the BAR TX attempt had failed. In the ath(4) case, TX would stay
paused.
(There's no callback to indicate that BAR TX had failed or not;
only a "BAR TX was attempted". That's a separate, later problem.)
So call the driver callback (ic_bar_response()) before the ADDBA session
is torn down, so it has a chance of being notified that things didn't
quite go to plan.
I've verified that yes, this does suspend traffic for ath(4), retry BAR
TX even if the driver is failing ic_raw_xmit(), and then eventually giving
up and sending a DELBA. I'll address the "out of ath_buf" issue in ath(4)
in a subsequent commit - this commit just fixes the edge case where any
driver is (way) out of internal buffers/descriptors and fails frame TX.
PR: kern/168170
Reviewed by: bschmidt
MFC after: 1 month
* Modified hwmp_recv_preq:
o cleaned up code, removed rootmac variable because preq->origaddr
is the root when we recevie a Proactive PREQ;
o Modified so that a PREP in response of a Proactive PREQ is unicast,
a PREP is ALWAYS unicast;
* Modified hwmp_recv_prep:
o Before we mark a route to be valid we should remove the discovery
flag and then mark it valid in such a way we wont lose the isgate flag;
Approved by: adrian
* Added a new discovery flag IEEE80211_MESHRT_FLAGS_DISCOVER;
* Modified ieee80211_ioctl.h to include IEEE80211_MESHRT_FLAGS_DISCOVER;
* Added hwmp_rediscover_cb, which will be called by a timeout to do
rediscovery if we have not reach max number of preq discovery;
* Modified hwmp_discover to setup a callout for path rediscovery;
* Added to ieee80211req_mesh_route to have a back pointer to ieee80211vap
for the discovery callout context;
* Modified mesh_rt_add_locked arguemnt from ieee80211_mesh_state to
ieee80211vap, this because we have to initialize the above back pointer;
Approved by: adrian
* Renamed IEEE80211_ELEMID_MESHPANN to IEEE80211_ELEMID_MESHGANN according to
amendment;
* Added IEEE80211_IOC_MESH_GATE that controls whether Mesh Gate Announcement
is activated or not;
* Renamed all flags from Portal to Gate in HWMP frames;
* Removed IEEE80211_ACTION_MESHPANN enum cause its part of the Mesh Action
category now as per amendment;
* Renamed IEEE80211_MESHFLAGS_PORTAL to IEEE80211_MESHFLAGS_GATE in
ieee80211_mesh_state flags;
* Modified ieee80211_hwmp.c/ieee80211_mesh.c to use new GATE flags;
Approved by: adrian
* Introduced a new HWMP sysctl, Root Confirmation Interval;
* Added hr_lastrootconf to hwmp_route, is for ratecheck for a specific ROOT;
* We missed reading RANN.interval subfield from a RANN frame before;
* Updated hwmp_recv_rann according to amendment, see comments;
Approved by: adrian
* Added mpp_senderror for Mesh Path Selection protocol;
* Added hwmp_senderror that will send an HWMP PERR according to the
supplied reason code;
* Call mpp_senderror when deleting a route with correct reason code
for whether the route is marked proxy or not;
* Call mpp_senderror when trying to forward an individually addressed
frame and there is no forwarding information;
Approved by: adrian
* When receiving a Proactive PREQ dont return after processing it but propagate;
* When we propagate we should not enforce ratechecking;
* Added checking for multiple pred ID detection;
* Storing proxy orig address when PREQ is not for us;
Approved by: adrian
* Moved hs_lastpreq to be hr_lastpreq cause this rate check should be per
target mesh STA according to amendment (NB: not applicable for PERR);
* Modified hwmp_send_preq to use two extra arguments for last sent PREQ and
minimum PREQ interval;
* hwmp_send_preq is called with last two arguments equal to NULL when sending
Proactive PREQs cause the call back task enforces the rate check;
Approved by: adrian
* Added assertion in mesh_rt_update;
* Fixed some prep propagation that where multicast, ALL PREPS ARE UNICAST;
* Fixed PREP acceptance criteria;
* Fixed some PREP debug messages;
* HWMP intermediate reply (PREP) should only be sent if we have newer
forwarding infomration (FI) about target;
* Fixed PREP propagation condition and PREP w/ AE handling;
* Ignore PREPs that have unknown originator.
* Removed old code inside PREP that was for proactive path building
to root mesh;
Other errors include:
* use seq number of target and not orig mesh STA;
* Metric is what we have stored in our FI;
* Error in amendment, Hop count is not 0 but equals FI hopcount for target;
Approved by: adrian