b837332d0a
related issues. Moving the TX locking under one lock made things easier to progress on but it had one important side-effect - it increased the latency when handling CABQ setup when sending beacons. This commit introduces a bunch of new changes and a few unrelated changs that are just easier to lump in here. The aim is to have the CABQ locking separate from other locking. The CABQ transmit path in the beacon process thus doesn't have to grab the general TX lock, reducing lock contention/latency and making it more likely that we'll make the beacon TX timing. The second half of this commit is the CABQ related setup changes needed for sane looking EDMA CABQ support. Right now the EDMA TX code naively assumes that only one frame (MPDU or A-MPDU) is being pushed into each FIFO slot. For the CABQ this isn't true - a whole list of frames is being pushed in - and thus CABQ handling breaks very quickly. The aim here is to setup the CABQ list and then push _that list_ to the hardware for transmission. I can then extend the EDMA TX code to stamp that list as being "one" FIFO entry (likely by tagging the last buffer in that list as "FIFO END") so the EDMA TX completion code correctly tracks things. Major: * Migrate the per-TXQ add/removal locking back to per-TXQ, rather than a single lock. * Leave the software queue side of things under the ATH_TX_LOCK lock, (continuing) to serialise things as they are. * Add a new function which is called whenever there's a beacon miss, to print out some debugging. This is primarily designed to help me figure out if the beacon miss events are due to a noisy environment, issues with the PHY/MAC, or other. * Move the CABQ setup/enable to occur _after_ all the VAPs have been looked at. This means that for multiple VAPS in bursted mode, the CABQ gets primed once all VAPs are checked, rather than being primed on the first VAP and then having frames appended after this. Minor: * Add a (disabled) twiddle to let me enable/disable cabq traffic. It's primarily there to let me easily debug what's going on with beacon and CABQ setup/traffic; there's some DMA engine hangs which I'm finally trying to trace down. * Clear bf_next when flushing frames; it should quieten some warnings that show up when a node goes away. Tested: * AR9280, STA/hostap, up to 4 vaps (staggered) * AR5416, STA/hostap, up to 4 vaps (staggered) TODO: * (Lots) more AR9380 and later testing, as I may have missed something here. * Leverage this to fix CABQ hanling for AR9380 and later chips. * Force bursted beaconing on the chips that default to staggered beacons and ensure the CABQ stuff is all sane (eg, the MORE bits that aren't being correctly set when chaining descriptors.)
This is the top level of the FreeBSD source directory. This file was last revised on: $FreeBSD$ For copyright information, please see the file COPYRIGHT in this directory (additional copyright information also exists for some sources in this tree - please see the specific source directories for more information). The Makefile in this directory supports a number of targets for building components (or all) of the FreeBSD source tree, the most commonly used one being ``world'', which rebuilds and installs everything in the FreeBSD system from the source tree except the kernel, the kernel-modules and the contents of /etc. The ``world'' target should only be used in cases where the source tree has not changed from the currently running version. See: http://www.freebsd.org/doc/en_US.ISO8859-1/books/handbook/makeworld.html for more information, including setting make(1) variables. The ``buildkernel'' and ``installkernel'' targets build and install the kernel and the modules (see below). Please see the top of the Makefile in this directory for more information on the standard build targets and compile-time flags. Building a kernel is a somewhat more involved process, documentation for which can be found at: http://www.freebsd.org/doc/en_US.ISO8859-1/books/handbook/kernelconfig.html And in the config(8) man page. Note: If you want to build and install the kernel with the ``buildkernel'' and ``installkernel'' targets, you might need to build world before. More information is available in the handbook. The sample kernel configuration files reside in the sys/<arch>/conf sub-directory (assuming that you've installed the kernel sources), the file named GENERIC being the one used to build your initial installation kernel. The file NOTES contains entries and documentation for all possible devices, not just those commonly used. It is the successor of the ancient LINT file, but in contrast to LINT, it is not buildable as a kernel but a pure reference and documentation file. Source Roadmap: --------------- bin System/user commands. cddl Various commands and libraries under the Common Development and Distribution License. contrib Packages contributed by 3rd parties. crypto Cryptography stuff (see crypto/README). etc Template files for /etc. games Amusements. gnu Various commands and libraries under the GNU Public License. Please see gnu/COPYING* for more information. include System include files. kerberos5 Kerberos5 (Heimdal) package. lib System libraries. libexec System daemons. release Release building Makefile & associated tools. rescue Build system for statically linked /rescue utilities. sbin System commands. secure Cryptographic libraries and commands. share Shared resources. sys Kernel sources. tools Utilities for regression testing and miscellaneous tasks. usr.bin User commands. usr.sbin System administration commands. For information on synchronizing your source tree with one or more of the FreeBSD Project's development branches, please see: http://www.freebsd.org/doc/en_US.ISO8859-1/books/handbook/synching.html