Revamp the CAM enclosure services driver.
This updated driver uses an in-kernel daemon to track state changes and
publishes physical path location information\for disk elements into the
CAM device database.
Sponsored by: Spectra Logic Corporation
Sponsored by: iXsystems, Inc.
Submitted by: gibbs, will, mav
- Add low-level support for SATA Enclosure Management Bridge (SEMB)
devices -- SATA equivalents of the SCSI SES/SAF-TE devices.
- Add some utility functions for SCSI SAF-TE devices access.
Sponsored by: iXsystems, Inc.
low memory situation. I've observed a situation where per-CPU
allocations were disabled while there were enough free cached pages.
Basically, cnt.v_free_count was sitting stable at a value lower
than cnt.v_free_min and that caused massive performance drop.
Reviewed by: alc
MFC after: 1 week
processor objects. Instead of forcing the new-bus CPU objects to use
a unit number equal to pc_cpuid, adjust acpi_pcpu_get_id() to honor the
MADT IDs by default. As with the previous change, setting
debug.acpi.cpu_unordered to 1 in the loader will revert to the old
behavior.
Tested by: jimharris
MFC after: 1 month
and deactivating PCI resources. Previously, if a device had more than
48 MSI interrupts, then activating message 48 (which has a rid == PCIR_BIOS)
would incorrectly try to enable the PCI ROM BAR.
Tested by: Olivier Cinquin ocinquin uci edu
MFC after: 3 days
negotiate with each other on the TLP payload size so blindly
forcing the size to 128 can cause a completion error which in turn
will stop device.
Reported by: Geans Pin < geanspin <> broadcom dot com >
MFC after: 5 days
configured down. Formerly, IPMI communication was lost whenever the
interface was not up. The reason was that the BCE_EMAC_MODE
register was not configured with the correct media settings. There
are two parts to the fix.
First, resetting the chip in bce_reset() causes the BCE_EMAC_MODE
register to be initialized to a default value that does not
necessarily correspond to the actual media settings. The fix
implemented here is a bit of a hack. Ideally, at the end of
bce_reset() we would poll the PHY to determine the negotiated media,
and then we would set the BCE_EMAC_MODE register accordingly. That
is difficult, since the PHY is abstracted behind the MII layer and is
not supposed to be queried directly from the MAC driver. Instead,
we read the BCE_EMAC_MODE register at the beginning of bce_reset()
and then restore its media bits to their original values before
returning. If IPMI is up and running, then the link is already
established and the BCE_EMAC_MODE register is already set appropriately
when bce_reset() is called. If IPMI is not running, no harm is
done by preserving the BCE_EMAC_MODE settings. The driver will set
the register properly once the interface is configured up and link
is established.
Second, bce_miibus_statchg() is sometimes called when the link is
down. In that case, the reported media settings are invalid.
Formerly, the driver used them anyway to setup the BCE_EMAC_MODE
register. We now avoid changing any MAC registers unless link is
active and the reported media settings are valid.
Submitted by: jdp
Tested by: jdp
MFC after: 5 days
I'll have to leave this high for now, until I've done some significant
surgery with how ath_bufs (and descriptors) are handled.
This should significantly cut down on the opportunities for a full TX
queue hanging traffic. I'll continue making things work though; I'm
mostly doing this for users. :)
* 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