when your userland is older tahn your kernel and Makefile.inc1 therefore
thinks that you don't need to rebuild groff, when in fact you do. This
workaround is to set OSRELDATE to 500110 before building, but only if you
have a new enough Makefile.inc1.
I've confirmed this on my laptop, which was suffering from this problem.
Since it only hits power users, we'll naively assume that such users are
smart enough to read UPDATING.
references to it's man page, which is almost never installed on a
FreeBSD system. The information about using this command with gated
has been retained. I have just made it clear that gated is not a part
of FreeBSD.
PR: docs/51407
information.
Rewrite of startup code:
vinum_scandisk:
1. Hand a string with device names, not a table and length. This
is the way we get it at system startup time. This also means
that we don't insist on a /dev in the names.
2. Allocate drive list dynamically.
3. If passed a null drive list, use kern.disks as a list to search.
Add ioctl VINUM_READCONFIG which implements both the "read" and
"start" commands in vinum(8). Aim for marginally better error
messages when something goes wrong.
vinum_read:
Accept 0 parameters, hand an empty string to the kernel if so.
Use new ioctl VINUM_READCONFIG, not VINUM_CREATE, to read config.
vinum_start: When passed 0 parameters, drop the devstat kludge and
call vinum_read instead. It's no longer necessary to distinguish
between "start" and "read" if no parameters are passed, and
probably one of them should go away.
supported, it usually works for months at a time. Allow these people
to override the OSRELDATE of their installed world when things don't
match and the exact OSRELDATE matters and is different than the
kernel. Now that Makefile.inc1 depends more and more about which date
you have to optimize the pieces it builds, it may be necessary to
pessimize things if its guesses are wrong.
If OSRELDATE is already set, we won't fork the sysctl to find out what
the kernel's date is.
Developers on IRC suggested that they run mismatches all the time as
well.
Reviewed by: obrien
Switch to handling bad SCSI status as a sequencer interrupt
instead of having the kernel proccess these failures via
the completion queue. This is done because:
o The old scheme required us to pause the sequencer and clear
critical sections for each SCB. It seems that these pause
actions, if coincident with a sequencer FIFO interrupt, would
result in a FIFO interrupt getting lost or directing to the
wrong FIFO. This caused hangs when the driver was stressed
under high "queue full" loads.
o The completion code assumed that it was always called with
the sequencer running. This may not be the case in timeout
processing where completions occur manually via
ahd_pause_and_flushwork().
o With this scheme, the extra expense of clearing critical
sections is avoided since the sequencer will only self pause
once all pending selections have cleared and it is not in
a critical section.
aic79xx.c
Add code to handle the new BAD_SCB_STATUS sequencer
interrupt code. This just redirects the SCB through
the already existing ahd_complete_scb() code path.
Remove code in ahd_handle_scsi_status() that paused
the sequencer, made sure that no selections where
pending, and cleared critical sections. Bad
status SCBs are now only processed when all of these
conditions are true.
aic79xx.reg:
Add the BAD_SCB_STATUS sequencer interrupt code.
aic79xx.seq:
When completing an SCB upload to the host, if
we are doing this because the SCB contains non-zero
SCSI status, defer completing the SCB until there
are no pending selection events. When completing
these SCBs, use the new BAD_SCB_STATUS sequencer
interrupt. For all other uploaded SCBs (currently
only for underruns), the SCB is completed via the
normal done queue. Additionally, keep the SCB that
is currently being uploaded on the COMPLETE_DMA_SCB
list until the dma is completed, not just until the
DMA is started. This ensures that the DMA is restarted
properly should the host disable the DMA transfer for
some reason.
In our RevA workaround for Maxtor drives, guard against
the host pausing us while trying to pause I/O until the
first data-valid REQ by clearing the current snapshot
so that we can tell if the transfer has completed prior
to us noticing the REQINIT status.
In cfg4data_intr, shave off an instruction before getting
the data path running by adding an entrypoint to the
overrun handler to also increment the FIFO use count.
In the overrun handler, be sure to clear our LONGJMP
address in both exit paths.
Perform a few sequencer optimizations.
aic79xx.c:
Print the full path from the SCB when a packetized
status overrun occurs.
Remove references to LONGJMP_SCB which is being
removed from firmware usage.
Print the new SCB_FIFO_USE_COUNT field in the
per-SCB section of ahd_dump_card_state(). The
SCB_TAG field is now re-used by the sequencer,
so it no longer makes sense to reference this
field in the kernel driver.
aic79xx.h:
Re-arrange fields in the hardware SCB from largest
size type to smallest. This makes it easier to
move fields without changing field alignment.
The hardware scb tag field is now down near the
"spare" portion of the SCB to facilitate reuse
by the sequencer.
aic79xx.reg:
Remove LONGJMP_ADDR.
Rearrange SCB fields to match aic79xx.h.
Add SCB_FIFO_USE_COUNT as the first byte
of the SCB_TAG field.
aic79xx.seq:
Add a per-SCB "Fifos in use count" field and use
it to determine when it is safe (all data posted)
to deliver status back to the host. The old method
involved polling one or both FIFOs to verify that
the current task did not have pending data. This
makes running down the GSFIFO very cheap, so we
will empty the GSFIFO in one idle loop pass in
all cases.
Use this simplification of the completion process
to prune down the data FIFO teardown sequencer for
packetized transfers. Much more code is now shared
between the data residual and transfer complete cases.
Correct some issues in the packetized status handler.
It used to be possible to CLRCHN our FIFO before status
had fully transferred to the host. We also failed to
handle NONPACKREQ phases that could occur should a CRC
error occur during transmission of the status data packet.
Correct a few big endian issues:
aic79xx.c:
aic79xx_inline.h:
aic79xx_pci.c:
aic79xx_osm.c:
o Always get the SCB's tag via the SCB_GET_TAG acccessor
o Add missing use of byte swapping macros when touching
hscb fields.
o Don't double swap SEEPROM data when it is printed.
Correct a big-endian bug. We cannot assign a
o When assigning a 32bit LE variable to a 64bit LE
variable, we must be explict about how the words
of the 64bit LE variable are initialized. Cast to
(uint32_t*) to do this.
aic79xx.c:
In ahd_clear_critical_section(), hit CRLSCSIINT
after restoring the interrupt masks to avoid what
appears to be a glitch on SCSIINT. Any real SCSIINT
status will be persistent and will immidiately
reset SCSIINT. This clear should only get rid of
spurious SCSIINTs.
This glitch was the cause of the "Unexpected PKT busfree"
status that occurred under high queue full loads
Call ahd_fini_scbdata() after shutdown so that
any ahd_chip_init() routine that might access
SCB data will not access free'd memory.
Reset the bus on an IOERR since the chip doesn't
seem to reset to the new voltage level without
this.
Change offset calculation for scatter gather maps
so that the calculation is correct if an integral
multiple of sg lists does not fit in the allocation
size.
Adjust bus dma tag for data buffers based on 39BIT
addressing flag in our softc.
Use the QFREEZE count to simplify ahd_pause_and_flushworkd().
We can thus rely on the sequencer eventually clearing ENSELO.
In ahd_abort_scbs(), fix a bug that could potentially
corrupt sequencer state. The saved SCB was being
restored in the SCSI mode instead of the saved mode.
It turns out that the SCB did not need to be saved at all
as the scbptr is already restored by all subroutines
called during this function that modify that register.
aic79xx.c:
aic79xx.h:
aic79xx_pci.c:
Add support for parsing the seeprom vital product
data. The VPD data are currently unused.
aic79xx.h:
aic79xx.seq:
aic79xx_pci.c:
Add a firmware workaround to make the LED blink
brighter during packetized operations on the H2A.
aic79xx_inline.h:
The host does not use timer interrupts, so don't
gate our decision on whether or not to unpause
the sequencer on whether or not a timer interrupt
is pending.
aic7xxx.h:
Split out core chip initialization into ahc_chip_init().
This will allow us to reset the chip correctly at times
other than initial chip setup.
aic7770.c
aic7xxx_pci.c:
Flesh out bus chip init methods for our two
bus attachments and use these, in addition to
bus suspend/resume hooks to get the core in
better shape for handling these events.
When disabling PCI parity error checking, use FAILDIS.
Although the chip docs indicate that clearing PERRESPEN
should also work, it does not.
Auto-disable pci parity error checking after informing
the user of AHC_PCI_TARGET_PERR_THRESH number of parity
errors observed as a target.
aic7xxx.h:
aic7xxx_pci.c
aic7770.c
aic7xxx.c
Add the instruction_ram_size softc field.
Remove the now unused stack_size softc field.
Modify ahc_loadseq to return a failure code
and to actually check the downloaded instruction
count against the limit set in our softc.
Modify callers of ahc_loadseq to handle load
failures as appropriate.
Set instruction RAM sizes for each chip type.
aic7xxx_pci.c:
Add some delay in the aic785X termination
control code. This may fix problems with
the 2930.
Be consistent in how we access config space
registers. 16bit registers are accessed using
16bit ops.
aic7xxx.c:
Correct spelling errors.
Have ahc_force_renegotiation() take a devinfo as is done
in the U320 driver. Use this argument to correct a bug
in the selection timeout handler where we forced a renegotiation
with the last device that had set SAVED_SCSIID. SAVED_SCSIID
is only updated once a selection is *sucessfull* and so is
stale for any selection timeout.
Cleanup the setup of the devinfo for busfree events. We
now use this devinfo for a call to ahc_force_renegotiation()
at the bottom of the routine, so it must be initialized in
all cases.
In ahc_pause_and_flushwork(), adjust the loop so that it
will exit in the hot-eject case even if the INT_PEND mask
is something other than 0xFF (as it is in this driver).
Correct a wrapping string constant.
Call ahc_fini_scbdata() after shutdown so that
any ahc_chip_init() routine that might access
SCB data will not access free'd memory.
Correctly setup our buffer tag to indicate that 39bit
addressing is available if in 39bit addressing mode.
Rearrange some variable declarations based on
type size.
aic7xxx.c
aic7xxx.h:
aic7xxx.reg:
Consistently use MAX_OFFSET for the user max syncrate
set from non-volatile storage. This ensures that the
offset does not conflict with AHC_OFFSET_UNKNOWN.
Change AHC_OFFSET_UNKNOWN to 0xFF. This is
a value that the curr->offset can never be,
unlike '0' which we previously used. This
fixes code that only checks for a non-zero
offset to determine if a sync negotiation
is required since it will fire in the unknown
case even if the goal is async.
Change MAX_OFFSET to 0x7f which is the max
offset U160 aic7xxx controllers can negotiate.
This ensures that curr->offset will not
match AHC_OFFSET_UNKNOWN.
aic7xxx_inline.h:
Have our inline interrupt handler return with a value
indicating whether we serviced a real interrupt. This
is required for Linux support.
Return earlier if the interrupt is not for us.
