CPU cores on Altera FPGAs. The device driver allows memory-mapped devices
on Altera's Avalon SoC bus to be exported to userspace via device nodes.
device.hints directories dictate device name, permissible access methods,
physical address and length, and I/O alignment. Devices can be accessed
using read(2)/write(2), but also memory mapped in userspace using mmap(2).
Devices attach directly to the Nexus, as is common for embedded device
drivers; in the future something more mature might be desirable. There is
currently no facility to support directing device-originated interrupts to
userspace.
In the future, this device driver may be renamed to socgen(4), as it can
in principle also be used with other system-on-chip (SoC) busses, such as
Axi on ASICs and FPGAs. However, we have only tested it on Avalon busses
with memory-mapped ROMs, frame buffers, etc.
Sponsored by: DARPA, AFRL
on PowerPC support. This was clearly not something syscons was
designed to do (very specific assumptions about the nature of VGA
consoles on PCs), but fortunately others have long since blazed
the way on making it work regardless of that.
Sponsored by: DARPA, AFRL
relative priority of the gxemul console in line with its role as a
"seiral console". This allows it to override video console drivers
that might otherwise take precdence, subject to that boot flag.
Sponsored by: DARPA, AFRL
This ensures that any ccbs which immediately start during the call to
xpt_release_devq see an accurate picture of the frozen_lun_mask.
Sponsored by: Intel
MFC after: 3 days
DFS parameters fetched from the HAL.
Check whether the specific chipset supports RADAR reporting before
enabling DFS; or some of the (unset) DFS methods may fail.
Tested:
* AR5210 (correctly didn't enable radar PHY reporting)
* AR5212 (correctly enabled radar PHY reporting w/ the correct default
parameters.)
TODO:
* Now that I have this capability check in place, I could remove the
(empty) DFS methods from AR5210/AR5211.
* Test on AR5416, AR9160, AR9280.
PR: kern/170904
* mfp support;
* 4.9ghz support in the HAL;
* device type - specifically, the bus type and whether it's a HB63
NIC (which requires some subtle chainmask handling differences
in the AR5416 HAL.)
Obtained from: Qualcomm Atheros
Report errors indicated by the transport. If this is too chatty, I'll
throw it behind a debug write.
Remove commented out debugs that are no longer useful.
This addresses kernel panic observed when sending SCSI UNMAP
commands to SATA disks attached to isci(4).
1) Flesh out callback routines to allocate/free buffers needed for
translating SCSI UNMAP data to ATA DSM data.
2) Add controller-level pool for storing buffers previously allocated
for UNMAP translation, to lessen chance of no buffer available
under memory pressure.
3) Ensure driver properly handles case where buffer pool is empty
and contigmalloc returns NULL.
Sponsored by: Intel
Reported by: Maksim Yevmenkin <max at netflix dot com>
Discussed with: scottl
MFC after: 3 days
evicted from the syncache but a later syncache_expand succeeds because
of syncookies. The TOE driver has to resort to more direct means to
install its hooks in the socket in this case.
the TOE driver reports that an active open failed. toe_connect_failed is
supposed to handle this but it should be provided the inpcb instead of the
tcpcb which may no longer be around.
Note: This is totally sub-optimal and a work in progress.
* Support filling an empty FIFO TXQ with frames from the ath_buf queue
in the ath_txq list. However, since there's (currently) no clean, easy
way to separate the frames that are in the FIFO versus just waiting,
the code waits for the FIFO to be totally empty before it attempts to
queue more. This is highly sub-optimal but is enough to get the ball
rolling.
* A _lot_ of the code assumes that the TX status is filled out in the
struct ath_buf bf_status field. So for now, memcpy() the completion over.
* None of the TX drain / reset routines will attempt to complete completed
frames before draining, so it can't be used for 802.11n TX aggregation.
(This won't work anyway, as the aggregation TX descriptor API hasn't
yet been converted; and that'll happen in some future commits.)
* Fix an issue where the FIFO counter wasn't being incremented, leading
to the queue logic just plain not working.
* HAL_EIO means "descriptor wasn't valid", versus "not finished, don't
continue." So don't stop processing descriptors when HAL_EIO is hit.
* Don't service frame completion from the beacon queue. It isn't currently
fully setup like a real queue and the first attempt at accessing the
queue lock will panic the kernel.
Tested:
* AR9380, STA mode
This commit is brought to you by said AR9380 in STA mode.
sizeof(struct ath_desc). This isn't correct for EDMA TX descriptors.
This popped up during iperf tests. Ping tests never created frames that
had enough segments to overflow into a second descriptor. However,
an iperf TCP test would do that after a few seconds; the second descriptor
would almost always certainly have garbage.
Tested:
* AR9380, STA mode
* AR9280, STA mode (802.11n TX, legacy TX)
